Plasmid Name = Ad-Cla Database Index Number = 1057 Created by: HIHG Description: FEATURES Locations/Qualifiers plasmid 1..34704 /note="Ad-Cla, 34704 bp. Made via recombination #475." source 1797..1812 /note="Add-Cla: #735, Spe I(5')--Mfe I(5') 2595 bp." source 1813..1796 /note="Ad6-hGM-CSF: #694, Cla I(5')--Cla I(5') 35225 bp." misc_feature 1269..1744 /label="B-globin_intron" /note="Human B-globin 2nd intron, Rsa I deleted." polyA_site 2009..2033 /label="polyA_site" /note="Axxs added after these bases in globin message." misc_feature 2557..2581 /label="End_of_globin" /note="End of globin sequences in typical pMD constructs." repeat_region 9..111 /label="Ad5_ITR" /note="Ad5 inverted terminal repeat" misc_feature 203..367 /label="Ad5_Psi" /note="Adenovirus packaging signal" misc_feature 2585..3876 /label="Ad5_3328-4637" /note="Homologous to sequences 3328-4619 of Adenovirus type 5" misc_feature 9..462 /label="Ad5_1-454" /note="Derived from sequences 1-454 of Adenovirus type 5." misc_feature 1118..1169 /label="CMV_TATA" /note="CMV TATA box sequences, from -52 to -1. Wild type, with Sac I site." repeat_region 26776..26784 /label="C_AAV_ITR" /note="Stem of C stem loop from AAV ITR" misc_feature 1170..1240 /label="CMV_5xxUTR" /note="5xx untranslated region from CMV immediate early promoter. The 3 prime end corresponds to the full extent of CMV sequences in the MDM constructs." misc_feature 1822..2581 /label="beta_globin_pA" /note="From 3rd exon of human beta globin, contains polyA sequences commonly used in HGTI vector lab constructs." misc_feature 27480..27519 /label="delE3" /note="Long del E3 of Adenovirus, constructed by C.Chartier. Inserts BamHI site and removes from 28249 to 30751 of Adeno type 5, which is 2503 bp." misc_feature 27504..28750 /label="Ad5xx30752-31998xx" /note="Segment flanking E3 deletion" promoter 586..1169 /label="CMV" /note="CMV promoter. Transcription starts with next base. 5 prime end starts at Spe I site only. The CMV region in this construct may extend further upstream." repeat_region complement(32589..32691) /label="Ad5_ITR" /note="Ad5 inverted terminal repeat" misc_feature complement(33302..33345) /label="Low_copy" /note="Tag for low copy plasmid replication xxpBR322xx" repeat_region complement(26773..26781) /label="B_AAV_ITR" /note="Stem of B stem loop from AAV ITR" misc_feature 33307..33338 /label="Correction-190" /note="Difference between low and high copy plasmids. Many of our lab plasmids are high copy, yet the sequence file suggests that they are low copy. This correction could be applied to make the sequence properly represent the actual DNA sequence for a high copy plasmid. It was confirmed in the full plasmid sequencing of CMMP-MR1-1TcR, which has the pUC18 backbone. This sequence has been found to be erroneous for some plasmids in our laboratory. It would be prudent to sequence the DNA to confirm the accuracy of your records. The sequence specified by this feature was actually found to be: ACGGCTACAC TAGAAGAACA GTATTTGGTA TC. " CDS 1182..1205 /label="HGTI-761_Max=" /note="PCR or sequencing primer located in CMV sequence just after 5xx end of RNA transcript. Max recorded sequencing read = bases. Perfect match Tm = 63.9 C, although only 17 nt are required to match. The actual sequence of the primer is GAGACGCCAT CCACGCTGTT TTGA." CDS complement(1152..1193) /label="HGTI-1192_Max=" /note="linker from SacI of CMV bridging into BglII of HIV R. Max recorded sequencing read = bases. Perfect match Tm = 74.8 C, although only 17 nt are required to match. The actual sequence of the primer is gatcTGGTCT AACCAGAGAG ACCCcggttc actaaacgAG CT." CDS 1107..1128 /label="HGTI-1204_Max=311" /note="Sequencing primers for pHJ1 Max recorded sequencing read = 311 bases. Perfect match Tm = 62.5 C, although only 17 nt are required to match. The actual sequence of the primer is GCAAATGGGC GGTAGGCGTG TA." CDS 1102..1142 /label="HGTI-1220_Max=162" /note="? Max recorded sequencing read = 162 bases. Perfect match Tm = 76.1 C, although only 17 nt are required to match. The actual sequence of the primer is gcgcactagt catatggtag gcgtgtacgg tgggaggtct a." CDS 28962..28985 /label="HGTI-1224_Max=" /note=" Perfect match Tm = 45.5 C, although only 17 nt are required to match. The actual sequence of the primer is cagtaggaaa caaaaataat gata." CDS complement(29677..29700) /label="HGTI-1225_Max=" /note=" Perfect match Tm = 57 C, although only 17 nt are required to match. The actual sequence of the primer is agggaggtgg caggttgaat acta." CDS 1714..1734 /label="HGTI-1278_Max=0" /note="Jeng Shin designed sequencing primer @ 5xx end of MDM2b polylinker facing towards gene. xx723 is longer, higher Tm versionxx. Max recorded sequencing read = 0 bases. Perfect match Tm = 40.3 C, although only 17 nt are required to match. The actual sequence of the primer is CATGTTCATA CCTCTTATCT T." CDS complement(1868..1885) /label="HGTI-1279_Max=" /note="Jeng Shin designed sequencing primer @ 3xx end of MDM2b polylinker facing towards gene.New incarnation is 3149, reordered 1xx29xx01. Max recorded sequencing read = bases. Perfect match Tm = 54.2 C, although only 17 nt are required to match. The actual sequence of the primer is gccagggcat tagccaca." CDS complement(28856..28885) /label="HGTI-1612_Max=" /note="Sequencing primers for MMP-FAA, from LTR to LTR Max recorded sequencing read = bases. Perfect match Tm = 62.5 C, although only 17 nt are required to match. The actual sequence of the primer is TTTTGTTCAA ATGTTTGTTT TGAGGGGATT ." CDS 367..395 /label="HGTI-1653_Max=534" /note="Sequencing primer in adenovirus at position 359, next to Sac II site, for sequencing into junction of Adeno and E1A insertions. Max recorded sequencing read = 534 bases. Perfect match Tm = 66.9 C, although only 17 nt are required to match. The actual sequence of the primer is GGGACTTTGA CCGTTTACGT GGAGACTCG." CDS complement(179..214) /label="HGTI-1661_Max=" /note="Series of primers for construction of 4 variations of Adenovirus helper constructs, with potential for deletions in Psi. Max recorded sequencing read = bases. Perfect match Tm = 76.9 C, although only 17 nt are required to match. The actual sequence of the primer is acgAGATCTC GTACACCGGC GCACACCAAA AACGTC." CDS complement(2681..2704) /label="HGTI-1663_Max=541" /note="Series of primers for construction of 4 variations of Adenovirus helper constructs, with potential for deletions in Psi. Max recorded sequencing read = 541 bases. Perfect match Tm = 67.9 C, although only 17 nt are required to match. The actual sequence of the primer is CGGGCCTCAG CTCCTCGGTC ACAT." CDS 1699..1733 /label="HGTI-1732_Max=783" /note="New 5xx sequencing primer for B-globin constructs. Same position as JSL-70, but longer with a Tm at 66C. Max recorded sequencing read = 783 bases. Perfect match Tm = 65.5 C, although only 17 nt are required to match. The actual sequence of the primer is GGCCCTTTTG CTAATCATGT TCATACCTCT TATCT." CDS 301..333 /label="HGTI-1827_Max=685" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 685 bases. Perfect match Tm = 58.7 C, although only 17 nt are required to match. The actual sequence of the primer is taagaggaag tgaaatctga ataattttgt gtt." CDS complement(32731..32756) /label="HGTI-1828_Max=662" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 662 bases. Perfect match Tm = 60.7 C, although only 17 nt are required to match. The actual sequence of the primer is agcgagaaga atcataatgg ggaagg." CDS 641..668 /label="HGTI-1832_Max=638" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 638 bases. Perfect match Tm = 58.7 C, although only 17 nt are required to match. The actual sequence of the primer is agttccgcgt tacataactt acggtaaa." CDS 1241..1265 /label="HGTI-1834_Max=595" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 595 bases. Perfect match Tm = 58.7 C, although only 17 nt are required to match. The actual sequence of the primer is cctcgaagct gatcctgaga acttc." CDS 1541..1572 /label="HGTI-1835_Max=639" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 639 bases. Perfect match Tm = 58.2 C, although only 17 nt are required to match. The actual sequence of the primer is gttaaggcaa tagcaatatt tctgcatata aa." CDS 1991..2019 /label="HGTI-1843_Max=379" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 379 bases. Perfect match Tm = 59.8 C, although only 17 nt are required to match. The actual sequence of the primer is agcatctgga ttctgcctaa taaaaaaca." CDS 2292..2325 /label="HGTI-1844_Max=643" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 643 bases. Perfect match Tm = 59.1 C, although only 17 nt are required to match. The actual sequence of the primer is ttttacatta cttattgttt tagctgtcct catg." CDS 2589..2612 /label="HGTI-1845_Max=456" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 456 bases. Perfect match Tm = 59.2 C, although only 17 nt are required to match. The actual sequence of the primer is ctggaaggtg ctgaggtacg atga." CDS 2889..2916 /label="HGTI-1846_Max=407" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 407 bases. Perfect match Tm = 60.6 C, although only 17 nt are required to match. The actual sequence of the primer is aagcattgtg agctcatatt tgacaacg." CDS 3189..3213 /label="HGTI-1847_Max=293" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 293 bases. Perfect match Tm = 58.5 C, although only 17 nt are required to match. The actual sequence of the primer is ttctttgacc cgggaactta atgtc." CDS 3489..3513 /label="HGTI-1848_Max=432" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 432 bases. Perfect match Tm = 61.1 C, although only 17 nt are required to match. The actual sequence of the primer is gtagcaccac tgcagagctt catgc." CDS 3789..3814 /label="HGTI-1849_Max=109" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 109 bases. Perfect match Tm = 58.7 C, although only 17 nt are required to match. The actual sequence of the primer is tagcttagaa ggaaatgcgt ggaaga." CDS 32858..32877 /label="HGTI-1850_Max=589" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 589 bases. Perfect match Tm = 59.7 C, although only 17 nt are required to match. The actual sequence of the primer is taaaaaggcc gcgttgctgg ." CDS 33158..33176 /label="HGTI-1851_Max=601" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 601 bases. Perfect match Tm = 60.1 C, although only 17 nt are required to match. The actual sequence of the primer is cgaccgctgc gccttatcc." CDS 33458..33487 /label="HGTI-1852_Max=372" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 372 bases. Perfect match Tm = 58.8 C, although only 17 nt are required to match. The actual sequence of the primer is aaaaggatct caagaagatc ctttgatctt ." CDS 33739..33760 /label="HGTI-1853_Max=0" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 0 bases. Perfect match Tm = 61.0 C, although only 17 nt are required to match. The actual sequence of the primer is ccccagtgct gcaatgatac cg." CDS 34039..34059 /label="HGTI-1854_Max=650" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 650 bases. Perfect match Tm = 58.4 C, although only 17 nt are required to match. The actual sequence of the primer is agcggttagc tccttcggtc c." CDS 34339..34362 /label="HGTI-1855_Max=661" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 661 bases. Perfect match Tm = 58.0 C, although only 17 nt are required to match. The actual sequence of the primer is atccagttcg atgtaaccca ctcg." CDS 34639..34669 /label="HGTI-1856_Max=711" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 711 bases. Perfect match Tm = 58.3 C, although only 17 nt are required to match. The actual sequence of the primer is gacattaacc tataaaaata ggcgtatcac g." CDS complement(387..410) /label="HGTI-1858_Max=581" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 581 bases. Perfect match Tm = 60.6 C, although only 17 nt are required to match. The actual sequence of the primer is agaaaaacac ctgggcgagt ctcc." CDS complement(726..750) /label="HGTI-1863_Max=672" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 672 bases. Perfect match Tm = 59.1 C, although only 17 nt are required to match. The actual sequence of the primer is ccctattggc gttactatgg gaaca." CDS complement(1026..1050) /label="HGTI-1864_Max=485" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 485 bases. Perfect match Tm = 58.0 C, although only 17 nt are required to match. The actual sequence of the primer is aaacaaactc ccattgacgt caatg." CDS complement(1323..1350) /label="HGTI-1865_Max=636" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 636 bases. Perfect match Tm = 59.3 C, although only 17 nt are required to match. The actual sequence of the primer is tgttacttct ccccttccta tgacatga." CDS complement(1625..1650) /label="HGTI-1866_Max=639" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 639 bases. Perfect match Tm = 59.3 C, although only 17 nt are required to match. The actual sequence of the primer is gcagaatggt agctggattg tagctg." CDS complement(2076..2100) /label="HGTI-1874_Max=692" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 692 bases. Perfect match Tm = 58.1 C, although only 17 nt are required to match. The actual sequence of the primer is ttaaatgcac tgacctccca cattc." CDS complement(2371..2401) /label="HGTI-1875_Max=610" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 610 bases. Perfect match Tm = 59.5 C, although only 17 nt are required to match. The actual sequence of the primer is tatctctaag caagagaact gagtggagtc a." CDS complement(2677..2698) /label="HGTI-1876_Max=689" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 689 bases. Perfect match Tm = 58.8 C, although only 17 nt are required to match. The actual sequence of the primer is tcagctcctc ggtcacatcc ag." CDS complement(2978..2998) /label="HGTI-1877_Max=703" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 703 bases. Perfect match Tm = 60.9 C, although only 17 nt are required to match. The actual sequence of the primer is tagagtttgc gggcaggacg g." CDS complement(3271..3298) /label="HGTI-1878_Max=495" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 495 bases. Perfect match Tm = 60.4 C, although only 17 nt are required to match. The actual sequence of the primer is tatttatgtt ttaaaccgca ttgggagg." CDS complement(3570..3598) /label="HGTI-1879_Max=517" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 517 bases. Perfect match Tm = 58.7 C, although only 17 nt are required to match. The actual sequence of the primer is caatcagctt gctactgaaa gacattttt." CDS complement(32942..32967) /label="HGTI-1881_Max=511" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 511 bases. Perfect match Tm = 59 C, although only 17 nt are required to match. The actual sequence of the primer is atctttatag tcctgtcggg tttcgc." CDS complement(33240..33267) /label="HGTI-1882_Max=565" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 565 bases. Perfect match Tm = 60.5 C, although only 17 nt are required to match. The actual sequence of the primer is catacctcgc tctgctaatc ctgttacc." CDS complement(33539..33567) /label="HGTI-1883_Max=564" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 564 bases. Perfect match Tm = 58.2 C, although only 17 nt are required to match. The actual sequence of the primer is tgaagatcct ttttgataat ctcatgacc." CDS complement(33824..33848) /label="HGTI-1884_Max=593" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 593 bases. Perfect match Tm = 59.6 C, although only 17 nt are required to match. The actual sequence of the primer is ataaagttgc aggaccactt ctgcg." CDS complement(34121..34148) /label="HGTI-1885_Max=654" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 654 bases. Perfect match Tm = 60.0 C, although only 17 nt are required to match. The actual sequence of the primer is cggatggcat gacagtaaga gaattatg." CDS complement(34428..34448) /label="HGTI-1886_Max=647" /note="Full plasmid sequencing for Add-BGFP-FasL-Ires-FADD Max recorded sequencing read = 647 bases. Perfect match Tm = 60.2 C, although only 17 nt are required to match. The actual sequence of the primer is ccttttttgc ggcattttgc c." CDS 1051..1083 /label="HGTI-2021_Max=707" /note="sequencing pHD from 3xx end Max recorded sequencing read = 707 bases. Perfect match Tm = 71.5 C, although only 17 nt are required to match. The actual sequence of the primer is tggcaccaaa atcaacggga ctttccaaaa tgt." CDS complement(1442..1471) /label="HGTI-2022_Max=610" /note="sequencing primer in globin intron facing left. Max recorded sequencing read = 610 bases. Perfect match Tm = 53.9 C, although only 17 nt are required to match. The actual sequence of the primer is gaaagaaaga gattagggaa agtattagaa ." CDS 29077..29106 /label="HGTI-2142_Max=576" /note="pFMj1 - For sequencing PCR derived insert from G-fibisce in pFMJ1. xxUpper primer, bpxxs 6536 > 6565xx Max recorded sequencing read = 576 bases. Perfect match Tm = 60.6 C, although only 17 nt are required to match. The actual sequence of the primer is TGGCAGTCAA ATACTTGCTA CAGTTTCAGT ." CDS complement(29608..29631) /label="HGTI-2143_Max=606" /note="pFMj1 - For sequencing PCR derived insert from G-fibisce in pFMJ1. xxLower primer, bpxxs 7049 < 7072xx Max recorded sequencing read = 606 bases. Perfect match Tm = 56 C, although only 17 nt are required to match. The actual sequence of the primer is GTGGTGGTGG GGCTATACTA CTGA." CDS 1716..1743 /label="HGTI-2144_Max=0" /note="sFlt clone Add-musFlt-mIg: sequencing ORF Max recorded sequencing read = 0 bases. Perfect match Tm = 59.3 C, although only 17 nt are required to match. The actual sequence of the primer is TGTTCATACC TCTTATCTTC CTCCCACA." CDS complement(32518..32543) /label="HGTI-2172_Max=531" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 531 bases. Perfect match Tm = 59.2 C, although only 17 nt are required to match. The actual sequence of the primer is ttaaaatggg aagtgacgta acgtgg." CDS complement(32270..32293) /label="HGTI-2173_Max=613" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 613 bases. Perfect match Tm = 61.2 C, although only 17 nt are required to match. The actual sequence of the primer is taaggctgac tgttatggct gccg." CDS complement(32020..32043) /label="HGTI-2174_Max=589" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 589 bases. Perfect match Tm = 59.6 C, although only 17 nt are required to match. The actual sequence of the primer is cattatgact ccggacatga ccga." CDS complement(31767..31793) /label="HGTI-2175_Max=612" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 612 bases. Perfect match Tm = 61.1 C, although only 17 nt are required to match. The actual sequence of the primer is gcctttatct gcatgagcat gactacg." CDS complement(31523..31542) /label="HGTI-2176_Max=558" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 558 bases. Perfect match Tm = 59.8 C, although only 17 nt are required to match. The actual sequence of the primer is aagggaccta cgggatcgcg ." CDS complement(31268..31292) /label="HGTI-2177_Max=496" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 496 bases. Perfect match Tm = 58.6 C, although only 17 nt are required to match. The actual sequence of the primer is accctgaagg gtttagcctt tacgt." CDS complement(31021..31042) /label="HGTI-2178_Max=324" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 324 bases. Perfect match Tm = 60.1 C, although only 17 nt are required to match. The actual sequence of the primer is gtgtaggttg gctgggtgtg gc." CDS complement(30769..30792) /label="HGTI-2179_Max=585" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 585 bases. Perfect match Tm = 58.6 C, although only 17 nt are required to match. The actual sequence of the primer is gaccaacacg atctcggttg tctc." CDS complement(30520..30542) /label="HGTI-2180_Max=558" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 558 bases. Perfect match Tm = 59.1 C, although only 17 nt are required to match. The actual sequence of the primer is tatgcacgtg tgcctgtgtt gtg." CDS complement(30268..30292) /label="HGTI-2181_Max=658" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 658 bases. Perfect match Tm = 58.2 C, although only 17 nt are required to match. The actual sequence of the primer is tttatgaggg gtcgccactt aatct." CDS complement(30025..30042) /label="HGTI-2182_Max=99" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 99 bases. Perfect match Tm = 61.2 C, although only 17 nt are required to match. The actual sequence of the primer is cctgcaggac ggagcggc." CDS complement(29758..29792) /label="HGTI-2183_Max=492" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 492 bases. Perfect match Tm = 59.3 C, although only 17 nt are required to match. The actual sequence of the primer is gaatataaca cctaagaata tgtctgttac ccatg." CDS complement(29514..29542) /label="HGTI-2184_Max=535" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 535 bases. Perfect match Tm = 58.4 C, although only 17 nt are required to match. The actual sequence of the primer is tctttattct tgggcaatgt atgaaaaag." CDS complement(29268..29292) /label="HGTI-2185_Max=501" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 501 bases. Perfect match Tm = 58.3 C, although only 17 nt are required to match. The actual sequence of the primer is ttaggcataa atccaacagc gtttg." CDS complement(29012..29042) /label="HGTI-2186_Max=495" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 495 bases. Perfect match Tm = 59 C, although only 17 nt are required to match. The actual sequence of the primer is tctctgcatt tagtctacag ttaggagatg g." CDS complement(28770..28792) /label="HGTI-2187_Max=477" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 477 bases. Perfect match Tm = 60.9 C, although only 17 nt are required to match. The actual sequence of the primer is agcgtcaaac atcaacccct tgg." CDS complement(28520..28542) /label="HGTI-2188_Max=476" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 476 bases. Perfect match Tm = 58.1 C, although only 17 nt are required to match. The actual sequence of the primer is ttgccttgtg aatcaaaacc caa." CDS complement(28273..28292) /label="HGTI-2189_Max=531" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 531 bases. Perfect match Tm = 58.7 C, although only 17 nt are required to match. The actual sequence of the primer is tggtgagggg gcctgatgtt ." CDS complement(28018..28042) /label="HGTI-2190_Max=574" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 574 bases. Perfect match Tm = 61 C, although only 17 nt are required to match. The actual sequence of the primer is tacattttgg gaggtaaggt tgccg." CDS complement(27767..27792) /label="HGTI-2191_Max=521" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 521 bases. Perfect match Tm = 60.9 C, although only 17 nt are required to match. The actual sequence of the primer is tgcaacaaca tgaagatagt gggtgc." CDS complement(27519..27542) /label="HGTI-2192_Max=456" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 456 bases. Perfect match Tm = 58.4 C, although only 17 nt are required to match. The actual sequence of the primer is gtgcagagat cctcaggtcc ttga." CDS complement(27387..27412) /label="HGTI-2195_Max=481" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 481 bases. Perfect match Tm = 58.6 C, although only 17 nt are required to match. The actual sequence of the primer is tactcagcac agagatggca acaaag." CDS complement(27142..27162) /label="HGTI-2196_Max=471" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 471 bases. Perfect match Tm = 58.4 C, although only 17 nt are required to match. The actual sequence of the primer is ggcgacagtg gaccaggtgt t." CDS complement(26645..26662) /label="HGTI-2198_Max=289" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 289 bases. Perfect match Tm = 59.1 C, although only 17 nt are required to match. The actual sequence of the primer is tacaccaggg cagcgggc." CDS complement(26133..26162) /label="HGTI-2200_Max=390" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 390 bases. Perfect match Tm = 58.1 C, although only 17 nt are required to match. The actual sequence of the primer is atacagagtg ggaaaaatcc tgtttctaag ." CDS complement(25895..25918) /label="HGTI-2201_Max=385" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 385 bases. Perfect match Tm = 60.1 C, although only 17 nt are required to match. The actual sequence of the primer is gtgatggtag agaagaaagc ggcg." CDS complement(25650..25668) /label="HGTI-2202_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 59.8 C, although only 17 nt are required to match. The actual sequence of the primer is gttgccgatt tctggggcg." CDS complement(25401..25418) /label="HGTI-2203_Max=48" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 48 bases. Perfect match Tm = 67.7 C, although only 17 nt are required to match. The actual sequence of the primer is tagggctgcg gcggcggg." CDS complement(24645..24668) /label="HGTI-2206_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 60.0 C, although only 17 nt are required to match. The actual sequence of the primer is agcagtttct gcagctcctt gagg." CDS complement(24390..24418) /label="HGTI-2207_Max=393" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 393 bases. Perfect match Tm = 59.9 C, although only 17 nt are required to match. The actual sequence of the primer is gaaaggtgta gtgcaatgtt tcctctagc." CDS complement(24144..24168) /label="HGTI-2208_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.6 C, although only 17 nt are required to match. The actual sequence of the primer is cagctcactc atgactgtgc tcatg." CDS complement(23901..23918) /label="HGTI-2209_Max=529" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 529 bases. Perfect match Tm = 61.7 C, although only 17 nt are required to match. The actual sequence of the primer is acagcgccct gccgcaag." CDS complement(23651..23668) /label="HGTI-2210_Max=570" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 570 bases. Perfect match Tm = 58.9 C, although only 17 nt are required to match. The actual sequence of the primer is cgctgcgctc ttgcaacg." CDS complement(23398..23418) /label="HGTI-2211_Max=206" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 206 bases. Perfect match Tm = 59.3 C, although only 17 nt are required to match. The actual sequence of the primer is ctcgacgggg aaggtggtag g." CDS complement(23151..23168) /label="HGTI-2212_Max=81" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 81 bases. Perfect match Tm = 62.0 C, although only 17 nt are required to match. The actual sequence of the primer is gcgcccccaa aaaagcgg." CDS complement(22897..22918) /label="HGTI-2213_Max=36" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 36 bases. Perfect match Tm = 59 C, although only 17 nt are required to match. The actual sequence of the primer is caccggtgct aatcaagcat gg." CDS complement(22646..22668) /label="HGTI-2214_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.5 C, although only 17 nt are required to match. The actual sequence of the primer is actgcctgac caagtggaag ctc." CDS complement(22391..22418) /label="HGTI-2215_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.9 C, although only 17 nt are required to match. The actual sequence of the primer is ataaataagg agcacgtgat tgaaatgg." CDS complement(22143..22168) /label="HGTI-2216_Max=234" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 234 bases. Perfect match Tm = 58.5 C, although only 17 nt are required to match. The actual sequence of the primer is cttttatgca ggcgctgtat cctaac." CDS complement(21901..21918) /label="HGTI-2217_Max=248" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 248 bases. Perfect match Tm = 71.5 C, although only 17 nt are required to match. The actual sequence of the primer is ctcgcgcgcg cagggcgg." CDS complement(21641..21668) /label="HGTI-2218_Max=413" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 413 bases. Perfect match Tm = 58.3 C, although only 17 nt are required to match. The actual sequence of the primer is aatcacccga gagtgtacaa ataaaagc." CDS complement(21397..21418) /label="HGTI-2219_Max=294" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 294 bases. Perfect match Tm = 60.2 C, although only 17 nt are required to match. The actual sequence of the primer is tgtgatccat gggagtttgg gg." CDS complement(21149..21168) /label="HGTI-2220_Max=195" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 195 bases. Perfect match Tm = 58.5 C, although only 17 nt are required to match. The actual sequence of the primer is ccaggcaaag gccatccagt ." CDS complement(20897..20918) /label="HGTI-2221_Max=437" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 437 bases. Perfect match Tm = 60.1 C, although only 17 nt are required to match. The actual sequence of the primer is ggtacacggt ttcgatgacg cc." CDS complement(20644..20668) /label="HGTI-2222_Max=467" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 467 bases. Perfect match Tm = 59.3 C, although only 17 nt are required to match. The actual sequence of the primer is gtcaactgcg gtcttgccta taagc." CDS complement(20390..20418) /label="HGTI-2223_Max=404" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 404 bases. Perfect match Tm = 58.9 C, although only 17 nt are required to match. The actual sequence of the primer is tagttagcta gcatttgtac caggaacca." CDS complement(20142..20168) /label="HGTI-2224_Max=26" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 26 bases. Perfect match Tm = 59.6 C, although only 17 nt are required to match. The actual sequence of the primer is gtgatggggt ttccttagtc ttaaggc." CDS complement(19897..19918) /label="HGTI-2225_Max=471" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 471 bases. Perfect match Tm = 60.7 C, although only 17 nt are required to match. The actual sequence of the primer is gctggctccg tcaaccctta gg." CDS complement(19644..19668) /label="HGTI-2226_Max=274" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 274 bases. Perfect match Tm = 60.0 C, although only 17 nt are required to match. The actual sequence of the primer is cagcgtgctc caaggttaat gtagc." CDS complement(19395..19418) /label="HGTI-2227_Max=474" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 474 bases. Perfect match Tm = 59.9 C, although only 17 nt are required to match. The actual sequence of the primer is tttcccatcc attttcctga cctg." CDS complement(19147..19168) /label="HGTI-2228_Max=24" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 24 bases. Perfect match Tm = 58.9 C, although only 17 nt are required to match. The actual sequence of the primer is agcattcaac tgcgatgctt gg." CDS complement(18642..18668) /label="HGTI-2230_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.1 C, although only 17 nt are required to match. The actual sequence of the primer is gaccttcgac acctatttga ataccct." CDS complement(18401..18418) /label="HGTI-2231_Max=548" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 548 bases. Perfect match Tm = 60.7 C, although only 17 nt are required to match. The actual sequence of the primer is cagcacgccg cggatgtc." CDS complement(18148..18168) /label="HGTI-2232_Max=37" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 37 bases. Perfect match Tm = 59.1 C, although only 17 nt are required to match. The actual sequence of the primer is aggtactccg aggcgtcctg g." CDS complement(17902..17919) /label="HGTI-2233_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 64.3 C, although only 17 nt are required to match. The actual sequence of the primer is cgatcgcgga ccgctggc." CDS complement(17652..17669) /label="HGTI-2234_Max=178" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 178 bases. Perfect match Tm = 66.4 C, although only 17 nt are required to match. The actual sequence of the primer is ctgtcggggc gcggacgc." CDS complement(17394..17419) /label="HGTI-2235_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.5 C, although only 17 nt are required to match. The actual sequence of the primer is agttcttaac ggtggaaccg aaattt." CDS complement(17152..17169) /label="HGTI-2236_Max=125" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 125 bases. Perfect match Tm = 61 C, although only 17 nt are required to match. The actual sequence of the primer is tctgcgcctg caaggcca." CDS complement(16896..16919) /label="HGTI-2237_Max=428" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 428 bases. Perfect match Tm = 58.5 C, although only 17 nt are required to match. The actual sequence of the primer is aaagaccggc ttttaaacga tgct." CDS complement(16652..16669) /label="HGTI-2238_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.9 C, although only 17 nt are required to match. The actual sequence of the primer is ctggcggcgc cgtacttc." CDS complement(16401..16419) /label="HGTI-2239_Max=25" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 25 bases. Perfect match Tm = 58.7 C, although only 17 nt are required to match. The actual sequence of the primer is cctgcttgat tggccgcac." CDS complement(16150..16169) /label="HGTI-2240_Max=462" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 462 bases. Perfect match Tm = 59.2 C, although only 17 nt are required to match. The actual sequence of the primer is atgccgcttt ccgtaggcaa ." CDS complement(15895..15919) /label="HGTI-2241_Max=133" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 133 bases. Perfect match Tm = 58.3 C, although only 17 nt are required to match. The actual sequence of the primer is ttctttttga cccgctttag ctttc." CDS complement(15649..15669) /label="HGTI-2242_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.5 C, although only 17 nt are required to match. The actual sequence of the primer is aatacacgtt gcccctgcga c." CDS complement(15402..15419) /label="HGTI-2243_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 64.8 C, although only 17 nt are required to match. The actual sequence of the primer is atagcgccgg gctccgcg." CDS complement(15145..15169) /label="HGTI-2244_Max=0" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 0 bases. Perfect match Tm = 58.2 C, although only 17 nt are required to match. The actual sequence of the primer is cctgtgttat tgctgggcga tataa." CDS complement(14898..14919) /label="HGTI-2245_Max=597" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 597 bases. Perfect match Tm = 59.1 C, although only 17 nt are required to match. The actual sequence of the primer is ggttctcggg aaagcgattg aa." CDS complement(14650..14669) /label="HGTI-2246_Max=79" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 79 bases. Perfect match Tm = 58.0 C, although only 17 nt are required to match. The actual sequence of the primer is gattccggtc tgagggtcgc ." CDS complement(14399..14419) /label="HGTI-2247_Max=634" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 634 bases. Perfect match Tm = 61.5 C, although only 17 nt are required to match. The actual sequence of the primer is tcgttcatgt cctccaccgg c." CDS complement(14150..14169) /label="HGTI-2248_Max=567" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 567 bases. Perfect match Tm = 60.0 C, although only 17 nt are required to match. The actual sequence of the primer is tgtgggtgaa gtccaccccg ." CDS complement(13896..13919) /label="HGTI-2249_Max=619" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 619 bases. Perfect match Tm = 58.1 C, although only 17 nt are required to match. The actual sequence of the primer is cgtgaactcc acccactcgt attt." CDS complement(13646..13669) /label="HGTI-2250_Max=339" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 339 bases. Perfect match Tm = 59.4 C, although only 17 nt are required to match. The actual sequence of the primer is ttctggtagt tcagggatgc caca." CDS complement(13395..13419) /label="HGTI-2251_Max=101" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 101 bases. Perfect match Tm = 58.6 C, although only 17 nt are required to match. The actual sequence of the primer is gccgcatact aaggggaata caaga." CDS complement(13152..13169) /label="HGTI-2252_Max=489" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 489 bases. Perfect match Tm = 60.4 C, although only 17 nt are required to match. The actual sequence of the primer is tccctgtgct cctgcgcg." CDS complement(12900..12919) /label="HGTI-2253_Max=586" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 586 bases. Perfect match Tm = 61 C, although only 17 nt are required to match. The actual sequence of the primer is ttggcctgcg gaagctttcc ." CDS complement(12651..12669) /label="HGTI-2254_Max=444" /note="Ad5-hGM-CSF full plasmid sequencing. Set of primers for coverage of 30 kb of previously unsequenced Adenovirus serotype 5 DNA. Max recorded sequencing read = 444 bases. Perfect match Tm = 59.7 C, although only 17 nt are required to match. The actual sequence of the primer is gcggttgata aacggccgg." CDS complement(12391..12419) /label="HGTI-2255_Max=248" /note=" Perfect match Tm = 57 C, although only 17 nt are required to match. The actual sequence of the primer is ctgacacttg taatctcctg gaaagtatg." ^^ TTAATTAACATCATCAATAATATACCTTATTTTGGATTGAAGCCAATATGATAATGAGGGGGTGGAGTTTGTGACGTGGCGCGGGGCGTGGGAACGGGGCGGGTGACGTAGTAGTGTGGCGGAAGTGTGATGTTGCAAGTGTGGCGGAACACATGTAAGCGACGGATGTGGCAAAAGTGACGTTTTTGGTGTGCGCCGGTGTACACAGGAAGTGACAATTTTCGCGCGGTTTTAGGCGGATGTTGTAGTAAATTTGGGCGTAACCGAGTAAGATTTGGCCATTTTCGCGGGAAAACTGAATAAGAGGAAGTGAAATCTGAATAATTTTGTGTTACTCATAGCGCGTAATATTTGTCTAGGGCCGCGGGGACTTTGACCGTTTACGTGGAGACTCGCCCAGGTGTTTTTCTCAGGTGTTTTCCGCGTTCCGGGTCAAAGTTGGCGTTTTATTATTATAGTCAGCTGACGTGTAGTGTATTTATACCCGGTGAGTTCCTCAAGAGGCCACTCTTGAGTGCCAGCGAGTAGAGTTTTCTCCTCCGAGCCGCTCCGACACCGGGACTCGAGTGTTGACATTGATTATTGACTAGTTATTAATAGTAATCAATTACGGGGTCATTAGTTCATAGCCCATATATGGAGTTCCGCGTTACATAACTTACGGTAAATGGCCCGCCTGGCTGACCGCCCAACGACCCCCGCCCATTGACGTCAATAATGACGTATGTTCCCATAGTAACGCCAATAGGGACTTTCCATTGACGTCAATGGGTGGAGTATTTACGGTAAACTGCCCACTTGGCAGTACATCAAGTGTATCATATGCCAAGTACGCCCCCTATTGACGTCAATGACGGTAAATGGCCCGCCTGGCATTATGCCCAGTACATGACCTTATGGGACTTTCCTACTTGGCAGTACATCTACGTATTAGTCATCGCTATTACCATGGTGATGCGGTTTTGGCAGTACATCAATGGGCGTGGATAGCGGTTTGACTCACGGGGATTTCCAAGTCTCCACCCCATTGACGTCAATGGGAGTTTGTTTTGGCACCAAAATCAACGGGACTTTCCAAAATGTCGTAACAACTCCGCCCCATTGACGCAAATGGGCGGTAGGCGTGTACGGTGGGAGGTCTATATAAGCAGAGCTCGTTTAGTGAACCGTCAGATCGCCTGGAGACGCCATCCACGCTGTTTTGACCTCCATAGAAGACACCGGGACCGATCCAGCCTCCCCTCGAAGCTGATCCTGAGAACTTCAGGGTGAGTCTATGGGACCCTTGATGTTTTCTTTCCCCTTCTTTTCTATGGTTAAGTTCATGTCATAGGAAGGGGAGAAGTAACAGGGTACACATATTGACCAAATCAGGGTAATTTTGCATTTGTAATTTTAAAAAATGCTTTCTTCTTTTAATATACTTTTTTGTTTATCTTATTTCTAATACTTTCCCTAATCTCTTTCTTTCAGGGCAATAATGATACAATGTATCATGCCTCTTTGCACCATTCTAAAGAATAACAGTGATAATTTCTGGGTTAAGGCAATAGCAATATTTCTGCATATAAATATTTCTGCATATAAATTGTAACTGATGTAAGAGGTTTCATATTGCTAATAGCAGCTACAATCCAGCTACCATTCTGCTTTTATTTTATGGTTGGGATAAGGCTGGATTATTCTGAGTCCAAGCTAGGCCCTTTTGCTAATCATGTTCATACCTCTTATCTTCCTCCCACAGCTCCTGGGCAACGTGCTGGTCTGTGTGCTGGCCCATCACTTTGGCAAAGAATTCATCGATGTCGAGGGCCCAGATCTAATTCACCCCACCAGTGCAGGCTGCCTATCAGAAAGTGGTGGCTGGTGTGGCTAATGCCCTGGCCCACAAGTATCACTAAGCTCGCTTTCTTGCTGTCCAATTTCTATTAAAGGTTCCTTTGTTCCCTAAGTCCAACTACTAAACTGGGGGATATTATGAAGGGCCTTGAGCATCTGGATTCTGCCTAATAAAAAACATTTATTTTCATTGCAATGATGTATTTAAATTATTTCTGAATATTTTACTAAAAAGGGAATGTGGGAGGTCAGTGCATTTAAAACATAAAGAAATGAAGAGCTAGTTCAAACCTTGGGAAAATACACTATATCTTAAACTCCATGAAAGAAGGTGAGGCTGCAAACAGCTAATGCACATTGGCAACAGCCCCTGATGCCTATGCCTTATTCATCCCTCAGAAAAGGATTCAAGTAGAGGCTTGATTTGGAGGTTAAAGTTTTGCTATGCTGTATTTTACATTACTTATTGTTTTAGCTGTCCTCATGAATGTCTTTTCACTACCCATTTGCTTATCCTGCATCTCTCAGCCTTGACTCCACTCAGTTCTCTTGCTTAGAGATACCACCTTTCCCCTGAAGTGTTCCTTCCATGTTTTACGGCGAGATGGTTTCTCCTCGCCTGGCCACTCAGCCTTAGTTGTCTCTGTTGTCTTATAGAGGTCTACTTGAAGAAGGAAAAACAGGGGGCATGGTTTGACTGTCCTGTGAGCCCTTCTTCCCTGCCTCCCCCACTCACAGTGACGACAGATCTGGAAGGTGCTGAGGTACGATGAGACCCGCACCAGGTGCAGACCCTGCGAGTGTGGCGGTAAACATATTAGGAACCAGCCTGTGATGCTGGATGTGACCGAGGAGCTGAGGCCCGATCACTTGGTGCTGGCCTGCACCCGCGCTGAGTTTGGCTCTAGCGATGAAGATACAGATTGAGGTACTGAAATGTGTGGGCGTGGCTTAAGGGTGGGAAAGAATATATAAGGTGGGGGTCTTATGTAGTTTTGTATCTGTTTTGCAGCAGCCGCCGCCGCCATGAGCACCAACTCGTTTGATGGAAGCATTGTGAGCTCATATTTGACAACGCGCATGCCCCCATGGGCCGGGGTGCGTCAGAATGTGATGGGCTCCAGCATTGATGGTCGCCCCGTCCTGCCCGCAAACTCTACTACCTTGACCTACGAGACCGTGTCTGGAACGCCGTTGGAGACTGCAGCCTCCGCCGCCGCTTCAGCCGCTGCAGCCACCGCCCGCGGGATTGTGACTGACTTTGCTTTCCTGAGCCCGCTTGCAAGCAGTGCAGCTTCCCGTTCATCCGCCCGCGATGACAAGTTGACGGCTCTTTTGGCACAATTGGATTCTTTGACCCGGGAACTTAATGTCGTTTCTCAGCAGCTGTTGGATCTGCGCCAGCAGGTTTCTGCCCTGAAGGCTTCCTCCCCTCCCAATGCGGTTTAAAACATAAATAAAAAACCAGACTCTGTTTGGATTTGGATCAAGCAAGTGTCTTGCTGTCTTTATTTAGGGGTTTTGCGCGCGCGGTAGGCCCGGGACCAGCGGTCTCGGTCGTTGAGGGTCCTGTGTATTTTTTCCAGGACGTGGTAAAGGTGACTCTGGATGTTCAGATACATGGGCATAAGCCCGTCTCTGGGGTGGAGGTAGCACCACTGCAGAGCTTCATGCTGCGGGGTGGTGTTGTAGATGATCCAGTCGTAGCAGGAGCGCTGGGCGTGGTGCCTAAAAATGTCTTTCAGTAGCAAGCTGATTGCCAGGGGCAGGCCCTTGGTGTAAGTGTTTACAAAGCGGTTAAGCTGGGATGGGTGCATACGTGGGGATATGAGATGCATCTTGGACTGTATTTTTAGGTTGGCTATGTTCCCAGCCATATCCCTCCGGGGATTCATGTTGTGCAGAACCACCAGCACAGTGTATCCGGTGCACTTGGGAAATTTGTCATGTAGCTTAGAAGGAAATGCGTGGAAGAACTTGGAGACGCCCTTGTGACCTCCAAGATTTTCCATGCATTCGTCCATAATGATGGCAATGGGCCCACGGGCGGCGGCCTGGGCGAAGATATTTCTGGGATCACTAACGTCATAGTTGTGTTCCAGGATGAGATCGTCATAGGCCATTTTTACAAAGCGCGGGCGGAGGGTGCCAGACTGCGGTATAATGGTTCCATCCGGCCCAGGGGCGTAGTTACCCTCACAGATTTGCATTTCCCACGCTTTGAGTTCAGATGGGGGGATCATGTCTACCTGCGGGGCGATGAAGAAAACGGTTTCCGGGGTAGGGGAGATCAGCTGGGAAGAAAGCAGGTTCCTGAGCAGCTGCGACTTACCGCAGCCGGTGGGCCCGTAAATCACACCTATTACCGGCTGCAACTGGTAGTTAAGAGAGCTGCAGCTGCCGTCATCCCTGAGCAGGGGGGCCACTTCGTTAAGCATGTCCCTGACTCGCATGTTTTCCCTGACCAAATCCGCCAGAAGGCGCTCGCCGCCCAGCGATAGCAGTTCTTGCAAGGAAGCAAAGTTTTTCAACGGTTTGAGACCGTCCGCCGTAGGCATGCTTTTGAGCGTTTGACCAAGCAGTTCCAGGCGGTCCCACAGCTCGGTCACCTGCTCTACGGCATCTCGATCCAGCATATCTCCTCGTTTCGCGGGTTGGGGCGGCTTTCGCTGTACGGCAGTAGTCGGTGCTCGTCCAGACGGGCCAGGGTCATGTCTTTCCACGGGCGCAGGGTCCTCGTCAGCGTAGTCTGGGTCACGGTGAAGGGGTGCGCTCCGGGCTGCGCGCTGGCCAGGGTGCGCTTGAGGCTGGTCCTGCTGGTGCTGAAGCGCTGCCGGTCTTCGCCCTGCGCGTCGGCCAGGTAGCATTTGACCATGGTGTCATAGTCCAGCCCCTCCGCGGCGTGGCCCTTGGCGCGCAGCTTGCCCTTGGAGGAGGCGCCGCACGAGGGGCAGTGCAGACTTTTGAGGGCGTAGAGCTTGGGCGCGAGAAATACCGATTCCGGGGAGTAGGCATCCGCGCCGCAGGCCCCGCAGACGGTCTCGCATTCCACGAGCCAGGTGAGCTCTGGCCGTTCGGGGTCAAAAACCAGGTTTCCCCCATGCTTTTTGATGCGTTTCTTACCTCTGGTTTCCATGAGCCGGTGTCCACGCTCGGTGACGAAAAGGCTGTCCGTGTCCCCGTATACAGACTTGAGAGGCCTGTCCTCGAGCGGTGTTCCGCGGTCCTCCTCGTATAGAAACTCGGACCACTCTGAGACAAAGGCTCGCGTCCAGGCCAGCACGAAGGAGGCTAAGTGGGAGGGGTAGCGGTCGTTGTCCACTAGGGGGTCCACTCGCTCCAGGGTGTGAAGACACATGTCGCCCTCTTCGGCATCAAGGAAGGTGATTGGTTTGTAGGTGTAGGCCACGTGACCGGGTGTTCCTGAAGGGGGGCTATAAAAGGGGGTGGGGGCGCGTTCGTCCTCACTCTCTTCCGCATCGCTGTCTGCGAGGGCCAGCTGTTGGGGTGAGTACTCCCTCTGAAAAGCGGGCATGACTTCTGCGCTAAGATTGTCAGTTTCCAAAAACGAGGAGGATTTGATATTCACCTGGCCCGCGGTGATGCCTTTGAGGGTGGCCGCATCCATCTGGTCAGAAAAGACAATCTTTTTGTTGTCAAGCTTGGTGGCAAACGACCCGTAGAGGGCGTTGGACAGCAACTTGGCGATGGAGCGCAGGGTTTGGTTTTTGTCGCGATCGGCGCGCTCCTTGGCCGCGATGTTTAGCTGCACGTATTCGCGCGCAACGCACCGCCATTCGGGAAAGACGGTGGTGCGCTCGTCGGGCACCAGGTGCACGCGCCAACCGCGGTTGTGCAGGGTGACAAGGTCAACGCTGGTGGCTACCTCTCCGCGTAGGCGCTCGTTGGTCCAGCAGAGGCGGCCGCCCTTGCGCGAGCAGAATGGCGGTAGGGGGTCTAGCTGCGTCTCGTCCGGGGGGTCTGCGTCCACGGTAAAGACCCCGGGCAGCAGGCGCGCGTCGAAGTAGTCTATCTTGCATCCTTGCAAGTCTAGCGCCTGCTGCCATGCGCGGGCGGCAAGCGCGCGCTCGTATGGGTTGAGTGGGGGACCCCATGGCATGGGGTGGGTGAGCGCGGAGGCGTACATGCCGCAAATGTCGTAAACGTAGAGGGGCTCTCTGAGTATTCCAAGATATGTAGGGTAGCATCTTCCACCGCGGATGCTGGCGCGCACGTAATCGTATAGTTCGTGCGAGGGAGCGAGGAGGTCGGGACCGAGGTTGCTACGGGCGGGCTGCTCTGCTCGGAAGACTATCTGCCTGAAGATGGCATGTGAGTTGGATGATATGGTTGGACGCTGGAAGACGTTGAAGCTGGCGTCTGTGAGACCTACCGCGTCACGCACGAAGGAGGCGTAGGAGTCGCGCAGCTTGTTGACCAGCTCGGCGGTGACCTGCACGTCTAGGGCGCAGTAGTCCAGGGTTTCCTTGATGATGTCATACTTATCCTGTCCCTTTTTTTTCCACAGCTCGCGGTTGAGGACAAACTCTTCGCGGTCTTTCCAGTACTCTTGGATCGGAAACCCGTCGGCCTCCGAACGGTAAGAGCCTAGCATGTAGAACTGGTTGACGGCCTGGTAGGCGCAGCATCCCTTTTCTACGGGTAGCGCGTATGCCTGCGCGGCCTTCCGGAGCGAGGTGTGGGTGAGCGCAAAGGTGTCCCTGACCATGACTTTGAGGTACTGGTATTTGAAGTCAGTGTCGTCGCATCCGCCCTGCTCCCAGAGCAAAAAGTCCGTGCGCTTTTTGGAACGCGGATTTGGCAGGGCGAAGGTGACATCGTTGAAGAGTATCTTTCCCGCGCGAGGCATAAAGTTGCGTGTGATGCGGAAGGGTCCCGGCACCTCGGAACGGTTGTTAATTACCTGGGCGGCGAGCACGATCTCGTCAAAGCCGTTGATGTTGTGGCCCACAATGTAAAGTTCCAAGAAGCGCGGGATGCCCTTGATGGAAGGCAATTTTTTAAGTTCCTCGTAGGTGAGCTCTTCAGGGGAGCTGAGCCCGTGCTCTGAAAGGGCCCAGTCTGCAAGATGAGGGTTGGAAGCGACGAATGAGCTCCACAGGTCACGGGCCATTAGCATTTGCAGGTGGTCGCGAAAGGTCCTAAACTGGCGACCTATGGCCATTTTTTCTGGGGTGATGCAGTAGAAGGTAAGCGGGTCTTGTTCCCAGCGGTCCCATCCAAGGTTCGCGGCTAGGTCTCGCGCGGCAGTCACTAGAGGCTCATCTCCGCCGAACTTCATGACCAGCATGAAGGGCACGAGCTGCTTCCCAAAGGCCCCCATCCAAGTATAGGTCTCTACATCGTAGGTGACAAAGAGACGCTCGGTGCGAGGATGCGAGCCGATCGGGAAGAACTGGATCTCCCGCCACCAATTGGAGGAGTGGCTATTGATGTGGTGAAAGTAGAAGTCCCTGCGACGGGCCGAACACTCGTGCTGGCTTTTGTAAAAACGTGCGCAGTACTGGCAGCGGTGCACGGGCTGTACATCCTGCACGAGGTTGACCTGACGACCGCGCACAAGGAAGCAGAGTGGGAATTTGAGCCCCTCGCCTGGCGGGTTTGGCTGGTGGTCTTCTACTTCGGCTGCTTGTCCTTGACCGTCTGGCTGCTCGAGGGGAGTTACGGTGGATCGGACCACCACGCCGCGCGAGCCCAAAGTCCAGATGTCCGCGCGCGGCGGTCGGAGCTTGATGACAACATCGCGCAGATGGGAGCTGTCCATGGTCTGGAGCTCCCGCGGCGTCAGGTCAGGCGGGAGCTCCTGCAGGTTTACCTCGCATAGACGGGTCAGGGCGCGGGCTAGATCCAGGTGATACCTAATTTCCAGGGGCTGGTTGGTGGCGGCGTCGATGGCTTGCAAGAGGCCGCATCCCCGCGGCGCGACTACGGTACCGCGCGGCGGGCGGTGGGCCGCGGGGGTGTCCTTGGATGATGCATCTAAAAGCGGTGACGCGGGCGAGCCCCCGGAGGTAGGGGGGGCTCCGGACCCGCCGGGAGAGGGGGCAGGGGCACGTCGGCGCCGCGCGCGGGCAGGAGCTGGTGCTGCGCGCGTAGGTTGCTGGCGAACGCGACGACGCGGCGGTTGATCTCCTGAATCTGGCGCCTCTGCGTGAAGACGACGGGCCCGGTGAGCTTGAACCTGAAAGAGAGTTCGACAGAATCAATTTCGGTGTCGTTGACGGCGGCCTGGCGCAAAATCTCCTGCACGTCTCCTGAGTTGTCTTGATAGGCGATCTCGGCCATGAACTGCTCGATCTCTTCCTCCTGGAGATCTCCGCGTCCGGCTCGCTCCACGGTGGCGGCGAGGTCGTTGGAAATGCGGGCCATGAGCTGCGAGAAGGCGTTGAGGCCTCCCTCGTTCCAGACGCGGCTGTAGACCACGCCCCCTTCGGCATCGCGGGCGCGCATGACCACCTGCGCGAGATTGAGCTCCACGTGCCGGGCGAAGACGGCGTAGTTTCGCAGGCGCTGAAAGAGGTAGTTGAGGGTGGTGGCGGTGTGTTCTGCCACGAAGAAGTACATAACCCAGCGTCGCAACGTGGATTCGTTGATATCCCCCAAGGCCTCAAGGCGCTCCATGGCCTCGTAGAAGTCCACGGCGAAGTTGAAAAACTGGGAGTTGCGCGCCGACACGGTTAACTCCTCCTCCAGAAGACGGATGAGCTCGGCGACAGTGTCGCGCACCTCGCGCTCAAAGGCTACAGGGGCCTCTTCTTCTTCTTCAATCTCCTCTTCCATAAGGGCCTCCCCTTCTTCTTCTTCTGGCGGCGGTGGGGGAGGGGGGACACGGCGGCGACGACGGCGCACCGGGAGGCGGTCGACAAAGCGCTCGATCATCTCCCCGCGGCGACGGCGCATGGTCTCGGTGACGGCGCGGCCGTTCTCGCGGGGGCGCAGTTGGAAGACGCCGCCCGTCATGTCCCGGTTATGGGTTGGCGGGGGGCTGCCATGCGGCAGGGATACGGCGCTAACGATGCATCTCAACAATTGTTGTGTAGGTACTCCGCCGCCGAGGGACCTGAGCGAGTCCGCATCGACCGGATCGGAAAACCTCTCGAGAAAGGCGTCTAACCAGTCACAGTCGCAAGGTAGGCTGAGCACCGTGGCGGGCGGCAGCGGGCGGCGGTCGGGGTTGTTTCTGGCGGAGGTGCTGCTGATGATGTAATTAAAGTAGGCGGTCTTGAGACGGCGGATGGTCGACAGAAGCACCATGTCCTTGGGTCCGGCCTGCTGAATGCGCAGGCGGTCGGCCATGCCCCAGGCTTCGTTTTGACATCGGCGCAGGTCTTTGTAGTAGTCTTGCATGAGCCTTTCTACCGGCACTTCTTCTTCTCCTTCCTCTTGTCCTGCATCTCTTGCATCTATCGCTGCGGCGGCGGCGGAGTTTGGCCGTAGGTGGCGCCCTCTTCCTCCCATGCGTGTGACCCCGAAGCCCCTCATCGGCTGAAGCAGGGCTAGGTCGGCGACAACGCGCTCGGCTAATATGGCCTGCTGCACCTGCGTGAGGGTAGACTGGAAGTCATCCATGTCCACAAAGCGGTGGTATGCGCCCGTGTTGATGGTGTAAGTGCAGTTGGCCATAACGGACCAGTTAACGGTCTGGTGACCCGGCTGCGAGAGCTCGGTGTACCTGAGACGCGAGTAAGCCCTCGAGTCAAATACGTAGTCGTTGCAAGTCCGCACCAGGTACTGGTATCCCACCAAAAAGTGCGGCGGCGGCTGGCGGTAGAGGGGCCAGCGTAGGGTGGCCGGGGCTCCGGGGGCGAGATCTTCCAACATAAGGCGATGATATCCGTAGATGTACCTGGACATCCAGGTGATGCCGGCGGCGGTGGTGGAGGCGCGCGGAAAGTCGCGGACGCGGTTCCAGATGTTGCGCAGCGGCAAAAAGTGCTCCATGGTCGGGACGCTCTGGCCGGTCAGGCGCGCGCAATCGTTGACGCTCTAGACCGTGCAAAAGGAGAGCCTGTAAGCGGGCACTCTTCCGTGGTCTGGTGGATAAATTCGCAAGGGTATCATGGCGGACGACCGGGGTTCGAGCCCCGTATCCGGCCGTCCGCCGTGATCCATGCGGTTACCGCCCGCGTGTCGAACCCAGGTGTGCGACGTCAGACAACGGGGGAGTGCTCCTTTTGGCTTCCTTCCAGGCGCGGCGGCTGCTGCGCTAGCTTTTTTGGCCACTGGCCGCGCGCAGCGTAAGCGGTTAGGCTGGAAAGCGAAAGCATTAAGTGGCTCGCTCCCTGTAGCCGGAGGGTTATTTTCCAAGGGTTGAGTCGCGGGACCCCCGGTTCGAGTCTCGGACCGGCCGGACTGCGGCGAACGGGGGTTTGCCTCCCCGTCATGCAAGACCCCGCTTGCAAATTCCTCCGGAAACAGGGACGAGCCCCTTTTTTGCTTTTCCCAGATGCATCCGGTGCTGCGGCAGATGCGCCCCCCTCCTCAGCAGCGGCAAGAGCAAGAGCAGCGGCAGACATGCAGGGCACCCTCCCCTCCTCCTACCGCGTCAGGAGGGGCGACATCCGCGGTTGACGCGGCAGCAGATGGTGATTACGAACCCCCGCGGCGCCGGGCCCGGCACTACCTGGACTTGGAGGAGGGCGAGGGCCTGGCGCGGCTAGGAGCGCCCTCTCCTGAGCGGCACCCAAGGGTGCAGCTGAAGCGTGATACGCGTGAGGCGTACGTGCCGCGGCAGAACCTGTTTCGCGACCGCGAGGGAGAGGAGCCCGAGGAGATGCGGGATCGAAAGTTCCACGCAGGGCGCGAGCTGCGGCATGGCCTGAATCGCGAGCGGTTGCTGCGCGAGGAGGACTTTGAGCCCGACGCGCGAACCGGGATTAGTCCCGCGCGCGCACACGTGGCGGCCGCCGACCTGGTAACCGCATACGAGCAGACGGTGAACCAGGAGATTAACTTTCAAAAAAGCTTTAACAACCACGTGCGTACGCTTGTGGCGCGCGAGGAGGTGGCTATAGGACTGATGCATCTGTGGGACTTTGTAAGCGCGCTGGAGCAAAACCCAAATAGCAAGCCGCTCATGGCGCAGCTGTTCCTTATAGTGCAGCACAGCAGGGACAACGAGGCATTCAGGGATGCGCTGCTAAACATAGTAGAGCCCGAGGGCCGCTGGCTGCTCGATTTGATAAACATCCTGCAGAGCATAGTGGTGCAGGAGCGCAGCTTGAGCCTGGCTGACAAGGTGGCCGCCATCAACTATTCCATGCTTAGCCTGGGCAAGTTTTACGCCCGCAAGATATACCATACCCCTTACGTTCCCATAGACAAGGAGGTAAAGATCGAGGGGTTCTACATGCGCATGGCGCTGAAGGTGCTTACCTTGAGCGACGACCTGGGCGTTTATCGCAACGAGCGCATCCACAAGGCCGTGAGCGTGAGCCGGCGGCGCGAGCTCAGCGACCGCGAGCTGATGCACAGCCTGCAAAGGGCCCTGGCTGGCACGGGCAGCGGCGATAGAGAGGCCGAGTCCTACTTTGACGCGGGCGCTGACCTGCGCTGGGCCCCAAGCCGACGCGCCCTGGAGGCAGCTGGGGCCGGACCTGGGCTGGCGGTGGCACCCGCGCGCGCTGGCAACGTCGGCGGCGTGGAGGAATATGACGAGGACGATGAGTACGAGCCAGAGGACGGCGAGTACTAAGCGGTGATGTTTCTGATCAGATGATGCAAGACGCAACGGACCCGGCGGTGCGGGCGGCGCTGCAGAGCCAGCCGTCCGGCCTTAACTCCACGGACGACTGGCGCCAGGTCATGGACCGCATCATGTCGCTGACTGCGCGCAATCCTGACGCGTTCCGGCAGCAGCCGCAGGCCAACCGGCTCTCCGCAATTCTGGAAGCGGTGGTCCCGGCGCGCGCAAACCCCACGCACGAGAAGGTGCTGGCGATCGTAAACGCGCTGGCCGAAAACAGGGCCATCCGGCCCGACGAGGCCGGCCTGGTCTACGACGCGCTGCTTCAGCGCGTGGCTCGTTACAACAGCGGCAACGTGCAGACCAACCTGGACCGGCTGGTGGGGGATGTGCGCGAGGCCGTGGCGCAGCGTGAGCGCGCGCAGCAGCAGGGCAACCTGGGCTCCATGGTTGCACTAAACGCCTTCCTGAGTACACAGCCCGCCAACGTGCCGCGGGGACAGGAGGACTACACCAACTTTGTGAGCGCACTGCGGCTAATGGTGACTGAGACACCGCAAAGTGAGGTGTACCAGTCTGGGCCAGACTATTTTTTCCAGACCAGTAGACAAGGCCTGCAGACCGTAAACCTGAGCCAGGCTTTCAAAAACTTGCAGGGGCTGTGGGGGGTGCGGGCTCCCACAGGCGACCGCGCGACCGTGTCTAGCTTGCTGACGCCCAACTCGCGCCTGTTGCTGCTGCTAATAGCGCCCTTCACGGACAGTGGCAGCGTGTCCCGGGACACATACCTAGGTCACTTGCTGACACTGTACCGCGAGGCCATAGGTCAGGCGCATGTGGACGAGCATACTTTCCAGGAGATTACAAGTGTCAGCCGCGCGCTGGGGCAGGAGGACACGGGCAGCCTGGAGGCAACCCTAAACTACCTGCTGACCAACCGGCGGCAGAAGATCCCCTCGTTGCACAGTTTAAACAGCGAGGAGGAGCGCATTTTGCGCTACGTGCAGCAGAGCGTGAGCCTTAACCTGATGCGCGACGGGGTAACGCCCAGCGTGGCGCTGGACATGACCGCGCGCAACATGGAACCGGGCATGTATGCCTCAAACCGGCCGTTTATCAACCGCCTAATGGACTACTTGCATCGCGCGGCCGCCGTGAACCCCGAGTATTTCACCAATGCCATCTTGAACCCGCACTGGCTACCGCCCCCTGGTTTCTACACCGGGGGATTCGAGGTGCCCGAGGGTAACGATGGATTCCTCTGGGACGACATAGACGACAGCGTGTTTTCCCCGCAACCGCAGACCCTGCTAGAGTTGCAACAGCGCGAGCAGGCAGAGGCGGCGCTGCGAAAGGAAAGCTTCCGCAGGCCAAGCAGCTTGTCCGATCTAGGCGCTGCGGCCCCGCGGTCAGATGCTAGTAGCCCATTTCCAAGCTTGATAGGGTCTCTTACCAGCACTCGCACCACCCGCCCGCGCCTGCTGGGCGAGGAGGAGTACCTAAACAACTCGCTGCTGCAGCCGCAGCGCGAAAAAAACCTGCCTCCGGCATTTCCCAACAACGGGATAGAGAGCCTAGTGGACAAGATGAGTAGATGGAAGACGTACGCGCAGGAGCACAGGGACGTGCCAGGCCCGCGCCCGCCCACCCGTCGTCAAAGGCACGACCGTCAGCGGGGTCTGGTGTGGGAGGACGATGACTCGGCAGACGACAGCAGCGTCCTGGATTTGGGAGGGAGTGGCAACCCGTTTGCGCACCTTCGCCCCAGGCTGGGGAGAATGTTTTAAAAAAAAAAAAGCATGATGCAAAATAAAAAACTCACCAAGGCCATGGCACCGAGCGTTGGTTTTCTTGTATTCCCCTTAGTATGCGGCGCGCGGCGATGTATGAGGAAGGTCCTCCTCCCTCCTACGAGAGTGTGGTGAGCGCGGCGCCAGTGGCGGCGGCGCTGGGTTCTCCCTTCGATGCTCCCCTGGACCCGCCGTTTGTGCCTCCGCGGTACCTGCGGCCTACCGGGGGGAGAAACAGCATCCGTTACTCTGAGTTGGCACCCCTATTCGACACCACCCGTGTGTACCTGGTGGACAACAAGTCAACGGATGTGGCATCCCTGAACTACCAGAACGACCACAGCAACTTTCTGACCACGGTCATTCAAAACAATGACTACAGCCCGGGGGAGGCAAGCACACAGACCATCAATCTTGACGACCGGTCGCACTGGGGCGGCGACCTGAAAACCATCCTGCATACCAACATGCCAAATGTGAACGAGTTCATGTTTACCAATAAGTTTAAGGCGCGGGTGATGGTGTCGCGCTTGCCTACTAAGGACAATCAGGTGGAGCTGAAATACGAGTGGGTGGAGTTCACGCTGCCCGAGGGCAACTACTCCGAGACCATGACCATAGACCTTATGAACAACGCGATCGTGGAGCACTACTTGAAAGTGGGCAGACAGAACGGGGTTCTGGAAAGCGACATCGGGGTAAAGTTTGACACCCGCAACTTCAGACTGGGGTTTGACCCCGTCACTGGTCTTGTCATGCCTGGGGTATATACAAACGAAGCCTTCCATCCAGACATCATTTTGCTGCCAGGATGCGGGGTGGACTTCACCCACAGCCGCCTGAGCAACTTGTTGGGCATCCGCAAGCGGCAACCCTTCCAGGAGGGCTTTAGGATCACCTACGATGATCTGGAGGGTGGTAACATTCCCGCACTGTTGGATGTGGACGCCTACCAGGCGAGCTTGAAAGATGACACCGAACAGGGCGGGGGTGGCGCAGGCGGCAGCAACAGCAGTGGCAGCGGCGCGGAAGAGAACTCCAACGCGGCAGCCGCGGCAATGCAGCCGGTGGAGGACATGAACGATCATGCCATTCGCGGCGACACCTTTGCCACACGGGCTGAGGAGAAGCGCGCTGAGGCCGAAGCAGCGGCCGAAGCTGCCGCCCCCGCTGCGCAACCCGAGGTCGAGAAGCCTCAGAAGAAACCGGTGATCAAACCCCTGACAGAGGACAGCAAGAAACGCAGTTACAACCTAATAAGCAATGACAGCACCTTCACCCAGTACCGCAGCTGGTACCTTGCATACAACTACGGCGACCCTCAGACCGGAATCCGCTCATGGACCCTGCTTTGCACTCCTGACGTAACCTGCGGCTCGGAGCAGGTCTACTGGTCGTTGCCAGACATGATGCAAGACCCCGTGACCTTCCGCTCCACGCGCCAGATCAGCAACTTTCCGGTGGTGGGCGCCGAGCTGTTGCCCGTGCACTCCAAGAGCTTCTACAACGACCAGGCCGTCTACTCCCAACTCATCCGCCAGTTTACCTCTCTGACCCACGTGTTCAATCGCTTTCCCGAGAACCAGATTTTGGCGCGCCCGCCAGCCCCCACCATCACCACCGTCAGTGAAAACGTTCCTGCTCTCACAGATCACGGGACGCTACCGCTGCGCAACAGCATCGGAGGAGTCCAGCGAGTGACCATTACTGACGCCAGACGCCGCACCTGCCCCTACGTTTACAAGGCCCTGGGCATAGTCTCGCCGCGCGTCCTATCGAGCCGCACTTTTTGAGCAAGCATGTCCATCCTTATATCGCCCAGCAATAACACAGGCTGGGGCCTGCGCTTCCCAAGCAAGATGTTTGGCGGGGCCAAGAAGCGCTCCGACCAACACCCAGTGCGCGTGCGCGGGCACTACCGCGCGCCCTGGGGCGCGCACAAACGCGGCCGCACTGGGCGCACCACCGTCGATGACGCCATCGACGCGGTGGTGGAGGAGGCGCGCAACTACACGCCCACGCCGCCACCAGTGTCCACAGTGGACGCGGCCATTCAGACCGTGGTGCGCGGAGCCCGGCGCTATGCTAAAATGAAGAGACGGCGGAGGCGCGTAGCACGTCGCCACCGCCGCCGACCCGGCACTGCCGCCCAACGCGCGGCGGCGGCCCTGCTTAACCGCGCACGTCGCACCGGCCGACGGGCGGCCATGCGGGCCGCTCGAAGGCTGGCCGCGGGTATTGTCACTGTGCCCCCCAGGTCCAGGCGACGAGCGGCCGCCGCAGCAGCCGCGGCCATTAGTGCTATGACTCAGGGTCGCAGGGGCAACGTGTATTGGGTGCGCGACTCGGTTAGCGGCCTGCGCGTGCCCGTGCGCACCCGCCCCCCGCGCAACTAGATTGCAAGAAAAAACTACTTAGACTCGTACTGTTGTATGTATCCAGCGGCGGCGGCGCGCAACGAAGCTATGTCCAAGCGCAAAATCAAAGAAGAGATGCTCCAGGTCATCGCGCCGGAGATCTATGGCCCCCCGAAGAAGGAAGAGCAGGATTACAAGCCCCGAAAGCTAAAGCGGGTCAAAAAGAAAAAGAAAGATGATGATGATGAACTTGACGACGAGGTGGAACTGCTGCACGCTACCGCGCCCAGGCGACGGGTACAGTGGAAAGGTCGACGCGTAAAACGTGTTTTGCGACCCGGCACCACCGTAGTCTTTACGCCCGGTGAGCGCTCCACCCGCACCTACAAGCGCGTGTATGATGAGGTGTACGGCGACGAGGACCTGCTTGAGCAGGCCAACGAGCGCCTCGGGGAGTTTGCCTACGGAAAGCGGCATAAGGACATGCTGGCGTTGCCGCTGGACGAGGGCAACCCAACACCTAGCCTAAAGCCCGTAACACTGCAGCAGGTGCTGCCCGCGCTTGCACCGTCCGAAGAAAAGCGCGGCCTAAAGCGCGAGTCTGGTGACTTGGCACCCACCGTGCAGCTGATGGTACCCAAGCGCCAGCGACTGGAAGATGTCTTGGAAAAAATGACCGTGGAACCTGGGCTGGAGCCCGAGGTCCGCGTGCGGCCAATCAAGCAGGTGGCGCCGGGACTGGGCGTGCAGACCGTGGACGTTCAGATACCCACTACCAGTAGCACCAGTATTGCCACCGCCACAGAGGGCATGGAGACACAAACGTCCCCGGTTGCCTCAGCGGTGGCGGATGCCGCGGTGCAGGCGGTCGCTGCGGCCGCGTCCAAGACCTCTACGGAGGTGCAAACGGACCCGTGGATGTTTCGCGTTTCAGCCCCCCGGCGCCCGCGCCGTTCGAGGAAGTACGGCGCCGCCAGCGCGCTACTGCCCGAATATGCCCTACATCCTTCCATTGCGCCTACCCCCGGCTATCGTGGCTACACCTACCGCCCCAGAAGACGAGCAACTACCCGACGCCGAACCACCACTGGAACCCGCCGCCGCCGTCGCCGTCGCCAGCCCGTGCTGGCCCCGATTTCCGTGCGCAGGGTGGCTCGCGAAGGAGGCAGGACCCTGGTGCTGCCAACAGCGCGCTACCACCCCAGCATCGTTTAAAAGCCGGTCTTTGTGGTTCTTGCAGATATGGCCCTCACCTGCCGCCTCCGTTTCCCGGTGCCGGGATTCCGAGGAAGAATGCACCGTAGGAGGGGCATGGCCGGCCACGGCCTGACGGGCGGCATGCGTCGTGCGCACCACCGGCGGCGGCGCGCGTCGCACCGTCGCATGCGCGGCGGTATCCTGCCCCTCCTTATTCCACTGATCGCCGCGGCGATTGGCGCCGTGCCCGGAATTGCATCCGTGGCCTTGCAGGCGCAGAGACACTGATTAAAAACAAGTTGCATGTGGAAAAATCAAAATAAAAAGTCTGGACTCTCACGCTCGCTTGGTCCTGTAACTATTTTGTAGAATGGAAGACATCAACTTTGCGTCTCTGGCCCCGCGACACGGCTCGCGCCCGTTCATGGGAAACTGGCAAGATATCGGCACCAGCAATATGAGCGGTGGCGCCTTCAGCTGGGGCTCGCTGTGGAGCGGCATTAAAAATTTCGGTTCCACCGTTAAGAACTATGGCAGCAAGGCCTGGAACAGCAGCACAGGCCAGATGCTGAGGGATAAGTTGAAAGAGCAAAATTTCCAACAAAAGGTGGTAGATGGCCTGGCCTCTGGCATTAGCGGGGTGGTGGACCTGGCCAACCAGGCAGTGCAAAATAAGATTAACAGTAAGCTTGATCCCCGCCCTCCCGTAGAGGAGCCTCCACCGGCCGTGGAGACAGTGTCTCCAGAGGGGCGTGGCGAAAAGCGTCCGCGCCCCGACAGGGAAGAAACTCTGGTGACGCAAATAGACGAGCCTCCCTCGTACGAGGAGGCACTAAAGCAAGGCCTGCCCACCACCCGTCCCATCGCGCCCATGGCTACCGGAGTGCTGGGCCAGCACACACCCGTAACGCTGGACCTGCCTCCCCCCGCCGACACCCAGCAGAAACCTGTGCTGCCAGGCCCGACCGCCGTTGTTGTAACCCGTCCTAGCCGCGCGTCCCTGCGCCGCGCCGCCAGCGGTCCGCGATCGTTGCGGCCCGTAGCCAGTGGCAACTGGCAAAGCACACTGAACAGCATCGTGGGTCTGGGGGTGCAATCCCTGAAGCGCCGACGATGCTTCTGATAGCTAACGTGTCGTATGTGTGTCATGTATGCGTCCATGTCGCCGCCAGAGGAGCTGCTGAGCCGCCGCGCGCCCGCTTTCCAAGATGGCTACCCCTTCGATGATGCCGCAGTGGTCTTACATGCACATCTCGGGCCAGGACGCCTCGGAGTACCTGAGCCCCGGGCTGGTGCAGTTTGCCCGCGCCACCGAGACGTACTTCAGCCTGAATAACAAGTTTAGAAACCCCACGGTGGCGCCTACGCACGACGTGACCACAGACCGGTCCCAGCGTTTGACGCTGCGGTTCATCCCTGTGGACCGTGAGGATACTGCGTACTCGTACAAGGCGCGGTTCACCCTAGCTGTGGGTGATAACCGTGTGCTGGACATGGCTTCCACGTACTTTGACATCCGCGGCGTGCTGGACAGGGGCCCTACTTTTAAGCCCTACTCTGGCACTGCCTACAACGCCCTGGCTCCCAAGGGTGCCCCAAATCCTTGCGAATGGGATGAAGCTGCTACTGCTCTTGAAATAAACCTAGAAGAAGAGGACGATGACAACGAAGACGAAGTAGACGAGCAAGCTGAGCAGCAAAAAACTCACGTATTTGGGCAGGCGCCTTATTCTGGTATAAATATTACAAAGGAGGGTATTCAAATAGGTGTCGAAGGTCAAACACCTAAATATGCCGATAAAACATTTCAACCTGAACCTCAAATAGGAGAATCTCAGTGGTACGAAACAGAAATTAATCATGCAGCTGGGAGAGTCCTAAAAAAGACTACCCCAATGAAACCATGTTACGGTTCATATGCAAAACCCACAAATGAAAATGGAGGGCAAGGCATTCTTGTAAAGCAACAAAATGGAAAGCTAGAAAGTCAAGTGGAAATGCAATTTTTCTCAACTACTGAGGCAGCCGCAGGCAATGGTGATAACTTGACTCCTAAAGTGGTATTGTACAGTGAAGATGTAGATATAGAAACCCCAGACACTCATATTTCTTACATGCCCACTATTAAGGAAGGTAACTCACGAGAACTAATGGGCCAACAATCTATGCCCAACAGGCCTAATTACATTGCTTTTAGGGACAATTTTATTGGTCTAATGTATTACAACAGCACGGGTAATATGGGTGTTCTGGCGGGCCAAGCATCGCAGTTGAATGCTGTTGTAGATTTGCAAGACAGAAACACAGAGCTTTCATACCAGCTTTTGCTTGATTCCATTGGTGATAGAACCAGGTACTTTTCTATGTGGAATCAGGCTGTTGACAGCTATGATCCAGATGTTAGAATTATTGAAAATCATGGAACTGAAGATGAACTTCCAAATTACTGCTTTCCACTGGGAGGTGTGATTAATACAGAGACTCTTACCAAGGTAAAACCTAAAACAGGTCAGGAAAATGGATGGGAAAAAGATGCTACAGAATTTTCAGATAAAAATGAAATAAGAGTTGGAAATAATTTTGCCATGGAAATCAATCTAAATGCCAACCTGTGGAGAAATTTCCTGTACTCCAACATAGCGCTGTATTTGCCCGACAAGCTAAAGTACAGTCCTTCCAACGTAAAAATTTCTGATAACCCAAACACCTACGACTACATGAACAAGCGAGTGGTGGCTCCCGGGCTAGTGGACTGCTACATTAACCTTGGAGCACGCTGGTCCCTTGACTATATGGACAACGTCAACCCATTTAACCACCACCGCAATGCTGGCCTGCGCTACCGCTCAATGTTGCTGGGCAATGGTCGCTATGTGCCCTTCCACATCCAGGTGCCTCAGAAGTTCTTTGCCATTAAAAACCTCCTTCTCCTGCCGGGCTCATACACCTACGAGTGGAACTTCAGGAAGGATGTTAACATGGTTCTGCAGAGCTCCCTAGGAAATGACCTAAGGGTTGACGGAGCCAGCATTAAGTTTGATAGCATTTGCCTTTACGCCACCTTCTTCCCCATGGCCCACAACACCGCCTCCACGCTTGAGGCCATGCTTAGAAACGACACCAACGACCAGTCCTTTAACGACTATCTCTCCGCCGCCAACATGCTCTACCCTATACCCGCCAACGCTACCAACGTGCCCATATCCATCCCCTCCCGCAACTGGGCGGCTTTCCGCGGCTGGGCCTTCACGCGCCTTAAGACTAAGGAAACCCCATCACTGGGCTCGGGCTACGACCCTTATTACACCTACTCTGGCTCTATACCCTACCTAGATGGAACCTTTTACCTCAACCACACCTTTAAGAAGGTGGCCATTACCTTTGACTCTTCTGTCAGCTGGCCTGGCAATGACCGCCTGCTTACCCCCAACGAGTTTGAAATTAAGCGCTCAGTTGACGGGGAGGGTTACAACGTTGCCCAGTGTAACATGACCAAAGACTGGTTCCTGGTACAAATGCTAGCTAACTATAACATTGGCTACCAGGGCTTCTATATCCCAGAGAGCTACAAGGACCGCATGTACTCCTTCTTTAGAAACTTCCAGCCCATGAGCCGTCAGGTGGTGGATGATACTAAATACAAGGACTACCAACAGGTGGGCATCCTACACCAACACAACAACTCTGGATTTGTTGGCTACCTTGCCCCCACCATGCGCGAAGGACAGGCCTACCCTGCTAACTTCCCCTATCCGCTTATAGGCAAGACCGCAGTTGACAGCATTACCCAGAAAAAGTTTCTTTGCGATCGCACCCTTTGGCGCATCCCATTCTCCAGTAACTTTATGTCCATGGGCGCACTCACAGACCTGGGCCAAAACCTTCTCTACGCCAACTCCGCCCACGCGCTAGACATGACTTTTGAGGTGGATCCCATGGACGAGCCCACCCTTCTTTATGTTTTGTTTGAAGTCTTTGACGTGGTCCGTGTGCACCAGCCGCACCGCGGCGTCATCGAAACCGTGTACCTGCGCACGCCCTTCTCGGCCGGCAACGCCACAACATAAAGAAGCAAGCAACATCAACAACAGCTGCCGCCATGGGCTCCAGTGAGCAGGAACTGAAAGCCATTGTCAAAGATCTTGGTTGTGGGCCATATTTTTTGGGCACCTATGACAAGCGCTTTCCAGGCTTTGTTTCTCCACACAAGCTCGCCTGCGCCATAGTCAATACGGCCGGTCGCGAGACTGGGGGCGTACACTGGATGGCCTTTGCCTGGAACCCGCACTCAAAAACATGCTACCTCTTTGAGCCCTTTGGCTTTTCTGACCAGCGACTCAAGCAGGTTTACCAGTTTGAGTACGAGTCACTCCTGCGCCGTAGCGCCATTGCTTCTTCCCCCGACCGCTGTATAACGCTGGAAAAGTCCACCCAAAGCGTACAGGGGCCCAACTCGGCCGCCTGTGGACTATTCTGCTGCATGTTTCTCCACGCCTTTGCCAACTGGCCCCAAACTCCCATGGATCACAACCCCACCATGAACCTTATTACCGGGGTACCCAACTCCATGCTCAACAGTCCCCAGGTACAGCCCACCCTGCGTCGCAACCAGGAACAGCTCTACAGCTTCCTGGAGCGCCACTCGCCCTACTTCCGCAGCCACAGTGCGCAGATTAGGAGCGCCACTTCTTTTTGTCACTTGAAAAACATGTAAAAATAATGTACTAGAGACACTTTCAATAAAGGCAAATGCTTTTATTTGTACACTCTCGGGTGATTATTTACCCCCACCCTTGCCGTCTGCGCCGTTTAAAAATCAAAGGGGTTCTGCCGCGCATCGCTATGCGCCACTGGCAGGGACACGTTGCGATACTGGTGTTTAGTGCTCCACTTAAACTCAGGCACAACCATCCGCGGCAGCTCGGTGAAGTTTTCACTCCACAGGCTGCGCACCATCACCAACGCGTTTAGCAGGTCGGGCGCCGATATCTTGAAGTCGCAGTTGGGGCCTCCGCCCTGCGCGCGCGAGTTGCGATACACAGGGTTGCAGCACTGGAACACTATCAGCGCCGGGTGGTGCACGCTGGCCAGCACGCTCTTGTCGGAGATCAGATCCGCGTCCAGGTCCTCCGCGTTGCTCAGGGCGAACGGAGTCAACTTTGGTAGCTGCCTTCCCAAAAAGGGCGCGTGCCCAGGCTTTGAGTTGCACTCGCACCGTAGTGGCATCAAAAGGTGACCGTGCCCGGTCTGGGCGTTAGGATACAGCGCCTGCATAAAAGCCTTGATCTGCTTAAAAGCCACCTGAGCCTTTGCGCCTTCAGAGAAGAACATGCCGCAAGACTTGCCGGAAAACTGATTGGCCGGACAGGCCGCGTCGTGCACGCAGCACCTTGCGTCGGTGTTGGAGATCTGCACCACATTTCGGCCCCACCGGTTCTTCACGATCTTGGCCTTGCTAGACTGCTCCTTCAGCGCGCGCTGCCCGTTTTCGCTCGTCACATCCATTTCAATCACGTGCTCCTTATTTATCATAATGCTTCCGTGTAGACACTTAAGCTCGCCTTCGATCTCAGCGCAGCGGTGCAGCCACAACGCGCAGCCCGTGGGCTCGTGATGCTTGTAGGTCACCTCTGCAAACGACTGCAGGTACGCCTGCAGGAATCGCCCCATCATCGTCACAAAGGTCTTGTTGCTGGTGAAGGTCAGCTGCAACCCGCGGTGCTCCTCGTTCAGCCAGGTCTTGCATACGGCCGCCAGAGCTTCCACTTGGTCAGGCAGTAGTTTGAAGTTCGCCTTTAGATCGTTATCCACGTGGTACTTGTCCATCAGCGCGCGCGCAGCCTCCATGCCCTTCTCCCACGCAGACACGATCGGCACACTCAGCGGGTTCATCACCGTAATTTCACTTTCCGCTTCGCTGGGCTCTTCCTCTTCCTCTTGCGTCCGCATACCACGCGCCACTGGGTCGTCTTCATTCAGCCGCCGCACTGTGCGCTTACCTCCTTTGCCATGCTTGATTAGCACCGGTGGGTTGCTGAAACCCACCATTTGTAGCGCCACATCTTCTCTTTCTTCCTCGCTGTCCACGATTACCTCTGGTGATGGCGGGCGCTCGGGCTTGGGAGAAGGGCGCTTCTTTTTCTTCTTGGGCGCAATGGCCAAATCCGCCGCCGAGGTCGATGGCCGCGGGCTGGGTGTGCGCGGCACCAGCGCGTCTTGTGATGAGTCTTCCTCGTCCTCGGACTCGATACGCCGCCTCATCCGCTTTTTTGGGGGCGCCCGGGGAGGCGGCGGCGACGGGGACGGGGACGACACGTCCTCCATGGTTGGGGGACGTCGCGCCGCACCGCGTCCGCGCTCGGGGGTGGTTTCGCGCTGCTCCTCTTCCCGACTGGCCATTTCCTTCTCCTATAGGCAGAAAAAGATCATGGAGTCAGTCGAGAAGAAGGACAGCCTAACCGCCCCCTCTGAGTTCGCCACCACCGCCTCCACCGATGCCGCCAACGCGCCTACCACCTTCCCCGTCGAGGCACCCCCGCTTGAGGAGGAGGAAGTGATTATCGAGCAGGACCCAGGTTTTGTAAGCGAAGACGACGAGGACCGCTCAGTACCAACAGAGGATAAAAAGCAAGACCAGGACAACGCAGAGGCAAACGAGGAACAAGTCGGGCGGGGGGACGAAAGGCATGGCGACTACCTAGATGTGGGAGACGACGTGCTGTTGAAGCATCTGCAGCGCCAGTGCGCCATTATCTGCGACGCGTTGCAAGAGCGCAGCGATGTGCCCCTCGCCATAGCGGATGTCAGCCTTGCCTACGAACGCCACCTATTCTCACCGCGCGTACCCCCCAAACGCCAAGAAAACGGCACATGCGAGCCCAACCCGCGCCTCAACTTCTACCCCGTATTTGCCGTGCCAGAGGTGCTTGCCACCTATCACATCTTTTTCCAAAACTGCAAGATACCCCTATCCTGCCGTGCCAACCGCAGCCGAGCGGACAAGCAGCTGGCCTTGCGGCAGGGCGCTGTCATACCTGATATCGCCTCGCTCAACGAAGTGCCAAAAATCTTTGAGGGTCTTGGACGCGACGAGAAGCGCGCGGCAAACGCTCTGCAACAGGAAAACAGCGAAAATGAAAGTCACTCTGGAGTGTTGGTGGAACTCGAGGGTGACAACGCGCGCCTAGCCGTACTAAAACGCAGCATCGAGGTCACCCACTTTGCCTACCCGGCACTTAACCTACCCCCCAAGGTCATGAGCACAGTCATGAGTGAGCTGATCGTGCGCCGTGCGCAGCCCCTGGAGAGGGATGCAAATTTGCAAGAACAAACAGAGGAGGGCCTACCCGCAGTTGGCGACGAGCAGCTAGCGCGCTGGCTTCAAACGCGCGAGCCTGCCGACTTGGAGGAGCGACGCAAACTAATGATGGCCGCAGTGCTCGTTACCGTGGAGCTTGAGTGCATGCAGCGGTTCTTTGCTGACCCGGAGATGCAGCGCAAGCTAGAGGAAACATTGCACTACACCTTTCGACAGGGCTACGTACGCCAGGCCTGCAAGATCTCCAACGTGGAGCTCTGCAACCTGGTCTCCTACCTTGGAATTTTGCACGAAAACCGCCTTGGGCAAAACGTGCTTCATTCCACGCTCAAGGGCGAGGCGCGCCGCGACTACGTCCGCGACTGCGTTTACTTATTTCTATGCTACACCTGGCAGACGGCCATGGGCGTTTGGCAGCAGTGCTTGGAGGAGTGCAACCTCAAGGAGCTGCAGAAACTGCTAAAGCAAAACTTGAAGGACCTATGGACGGCCTTCAACGAGCGCTCCGTGGCCGCGCACCTGGCGGACATCATTTTCCCCGAACGCCTGCTTAAAACCCTGCAACAGGGTCTGCCAGACTTCACCAGTCAAAGCATGTTGCAGAACTTTAGGAACTTTATCCTAGAGCGCTCAGGAATCTTGCCCGCCACCTGCTGTGCACTTCCTAGCGACTTTGTGCCCATTAAGTACCGCGAATGCCCTCCGCCGCTTTGGGGCCACTGCTACCTTCTGCAGCTAGCCAACTACCTTGCCTACCACTCTGACATAATGGAAGACGTGAGCGGTGACGGTCTACTGGAGTGTCACTGTCGCTGCAACCTATGCACCCCGCACCGCTCCCTGGTTTGCAATTCGCAGCTGCTTAACGAAAGTCAAATTATCGGTACCTTTGAGCTGCAGGGTCCCTCGCCTGACGAAAAGTCCGCGGCTCCGGGGTTGAAACTCACTCCGGGGCTGTGGACGTCGGCTTACCTTCGCAAATTTGTACCTGAGGACTACCACGCCCACGAGATTAGGTTCTACGAAGACCAATCCCGCCCGCCTAATGCGGAGCTTACCGCCTGCGTCATTACCCAGGGCCACATTCTTGGCCAATTGCAAGCCATCAACAAAGCCCGCCAAGAGTTTCTGCTACGAAAGGGACGGGGGGTTTACTTGGACCCCCAGTCCGGCGAGGAGCTCAACCCAATCCCCCCGCCGCCGCAGCCCTATCAGCAGCAGCCGCGGGCCCTTGCTTCCCAGGATGGCACCCAAAAAGAAGCTGCAGCTGCCGCCGCCACCCACGGACGAGGAGGAATACTGGGACAGTCAGGCAGAGGAGGTTTTGGACGAGGAGGAGGAGGACATGATGGAAGACTGGGAGAGCCTAGACGAGGAAGCTTCCGAGGTCGAAGAGGTGTCAGACGAAACACCGTCACCCTCGGTCGCATTCCCCTCGCCGGCGCCCCAGAAATCGGCAACCGGTTCCAGCATGGCTACAACCTCCGCTCCTCAGGCGCCGCCGGCACTGCCCGTTCGCCGACCCAACCGTAGATGGGACACCACTGGAACCAGGGCCGGTAAGTCCAAGCAGCCGCCGCCGTTAGCCCAAGAGCAACAACAGCGCCAAGGCTACCGCTCATGGCGCGGGCACAAGAACGCCATAGTTGCTTGCTTGCAAGACTGTGGGGGCAACATCTCCTTCGCCCGCCGCTTTCTTCTCTACCATCACGGCGTGGCCTTCCCCCGTAACATCCTGCATTACTACCGTCATCTCTACAGCCCATACTGCACCGGCGGCAGCGGCAGCAACAGCAGCGGCCACACAGAAGCAAAGGCGACCGGATAGCAAGACTCTGACAAAGCCCAAGAAATCCACAGCGGCGGCAGCAGCAGGAGGAGGAGCGCTGCGTCTGGCGCCCAACGAACCCGTATCGACCCGCGAGCTTAGAAACAGGATTTTTCCCACTCTGTATGCTATATTTCAACAGAGCAGGGGCCAAGAACAAGAGCTGAAAATAAAAAACAGGTCTCTGCGATCCCTCACCCGCAGCTGCCTGTATCACAAAAGCGAAGATCAGCTTCGGCGCACGCTGGAAGACGCGGAGGCTCTCTTCAGTAAATACTGCGCGCTGACTCTTAAGGACTAGTTTCGCGCCCTTTCTCAAATTTAAGCGCGAAAACTACGTCATCTCCAGCGGCCACACCCGGCGCCAGCACCTGTTGTCAGCGCCATTATGAGCAAGGAAATTCCCACGCCCTACATGTGGAGTTACCAGCCACAAATGGGACTTGCGGCTGGAGCTGCCCAAGACTACTCAACCCGAATAAACTACATGAGCGCGGGACCCCACATGATATCCCGGGTCAACGGAATACGCGCCCACCGAAACCGAATTCTCCTGGAACAGGCGGCTATTACCACCACACCTCGTAATAACCTTAATCCCCGTAGTTGGCCCGCTGCCCTGGTGTACCAGGAAAGTCCCGCTCCCACCACTGTGGTACTTCCCAGAGACGCCCAGGCCGAAGTTCAGATGACTAACTCAGGGGCGCAGCTTGCGGGCGGCTTTCGTCACAGGGTGCGGTCGCCCGGGCAGGGTATAACTCACCTGACAATCAGAGGGCGAGGTATTCAGCTCAACGACGAGTCGGTGAGCTCCTCGCTTGGTCTCCGTCCGGACGGGACATTTCAGATCGGCGGCGCCGGCCGTCCTTCATTCACGCCTCGTCAGGCAATCCTAACTCTGCAGACCTCGTCCTCTGAGCCGCGCTCTGGAGGCATTGGAACTCTGCAATTTATTGAGGAGTTTGTGCCATCGGTCTACTTTAACCCCTTCTCGGGACCTCCCGGCCACTATCCGGATCAATTTATTCCTAACTTTGACGCGGTAAAGGACTCGGCGGACGGCTACGACTGAATGTTAAGTGGAGAGGCAGAGCAACTGCGCCTGAAACACCTGGTCCACTGTCGCCGCCACAAGTGCTTTGCCCGCGACTCCGGTGAGTTTTGCTACTTTGAATTGCCCGAGGATCATATCGAGGGCCCGGCGCACGGCGTCCGGCTTACCGCCCAGGGAGAGCTTGCCCGTAGCCTGATTCGGGAGTTTACCCAGCGCCCCCTGCTAGTTGAGCGGGACAGGGGACCCTGTGTTCTCACTGTGATTTGCAACTGTCCTAACCTTGGATTACATCAAGATCTTTGTTGCCATCTCTGTGCTGAGTATAATAAATACAGAAATTAAAATATACTGGGGCTCCTATCGCCATCCTGTAAACGCCACCGTCTTCACCCGCCCAAGCAAACCAAGGGGATCCATTCACTCACCTTGTCAAGGACCTGAGGATCTCTGCACCCTTATTAAGACCCTGTGCGGTCTCAAAGATCTTATTCCCTTTAACTAATAAAAAAAAATAATAAAGCATCACTTACTTAAAATCAGTTAGCAAATTTCTGTCCAGTTTATTCAGCAGCACCTCCTTGCCCTCCTCCCAGCTCTGGTATTGCAGCTTCCTCCTGGCTGCAAACTTTCTCCACAATCTAAATGGAATGTCAGTTTCCTCCTGTTCCTGTCCATCCGCACCCACTATCTTCATGTTGTTGCAGATGAAGCGCGCAAGACCGTCTGAAGATACCTTCAACCCCGTGTATCCATATGACACGGAAACCGGTCCTCCAACTGTGCCTTTTCTTACTCCTCCCTTTGTATCCCCCAATGGGTTTCAAGAGAGTCCCCCTGGGGTACTCTCTTTGCGCCTATCCGAACCTCTAGTTACCTCCAATGGCATGCTTGCGCTCAAAATGGGCAACGGCCTCTCTCTGGACGAGGCCGGCAACCTTACCTCCCAAAATGTAACCACTGTGAGCCCACCTCTCAAAAAAACCAAGTCAAACATAAACCTGGAAATATCTGCACCCCTCACAGTTACCTCAGAAGCCCTAACTGTGGCTGCCGCCGCACCTCTAATGGTCGCGGGCAACACACTCACCATGCAATCACAGGCCCCGCTAACCGTGCACGACTCCAAACTTAGCATTGCCACCCAAGGACCCCTCACAGTGTCAGAAGGAAAGCTAGCCCTGCAAACATCAGGCCCCCTCACCACCACCGATAGCAGTACCCTTACTATCACTGCCTCACCCCCTCTAACTACTGCCACTGGTAGCTTGGGCATTGACTTGAAAGAGCCCATTTATACACAAAATGGAAAACTAGGACTAAAGTACGGGGCTCCTTTGCATGTAACAGACGACCTAAACACTTTGACCGTAGCAACTGGTCCAGGTGTGACTATTAATAATACTTCCTTGCAAACTAAAGTTACTGGAGCCTTGGGTTTTGATTCACAAGGCAATATGCAACTTAATGTAGCAGGAGGACTAAGGATTGATTCTCAAAACAGACGCCTTATACTTGATGTTAGTTATCCGTTTGATGCTCAAAACCAACTAAATCTAAGACTAGGACAGGGCCCTCTTTTTATAAACTCAGCCCACAACTTGGATATTAACTACAACAAAGGCCTTTACTTGTTTACAGCTTCAAACAATTCCAAAAAGCTTGAGGTTAACCTAAGCACTGCCAAGGGGTTGATGTTTGACGCTACAGCCATAGCCATTAATGCAGGAGATGGGCTTGAATTTGGTTCACCTAATGCACCAAACACAAATCCCCTCAAAACAAAAATTGGCCATGGCCTAGAATTTGATTCAAACAAGGCTATGGTTCCTAAACTAGGAACTGGCCTTAGTTTTGACAGCACAGGTGCCATTACAGTAGGAAACAAAAATAATGATAAGCTAACTTTGTGGACCACACCAGCTCCATCTCCTAACTGTAGACTAAATGCAGAGAAAGATGCTAAACTCACTTTGGTCTTAACAAAATGTGGCAGTCAAATACTTGCTACAGTTTCAGTTTTGGCTGTTAAAGGCAGTTTGGCTCCAATATCTGGAACAGTTCAAAGTGCTCATCTTATTATAAGATTTGACGAAAATGGAGTGCTACTAAACAATTCCTTCCTGGACCCAGAATATTGGAACTTTAGAAATGGAGATCTTACTGAAGGCACAGCCTATACAAACGCTGTTGGATTTATGCCTAACCTATCAGCTTATCCAAAATCTCACGGTAAAACTGCCAAAAGTAACATTGTCAGTCAAGTTTACTTAAACGGAGACAAAACTAAACCTGTAACACTAACCATTACACTAAACGGTACACAGGAAACAGGAGACACAACTCCAAGTGCATACTCTATGTCATTTTCATGGGACTGGTCTGGCCACAACTACATTAATGAAATATTTGCCACATCCTCTTACACTTTTTCATACATTGCCCAAGAATAAAGAATCGTTTGTGTTATGTTTCAACGTGTTTATTTTTCAATTGCAGAAAATTTCAAGTCATTTTTCATTCAGTAGTATAGCCCCACCACCACATAGCTTATACAGATCACCGTACCTTAATCAAACTCACAGAACCCTAGTATTCAACCTGCCACCTCCCTCCCAACACACAGAGTACACAGTCCTTTCTCCCCGGCTGGCCTTAAAAAGCATCATATCATGGGTAACAGACATATTCTTAGGTGTTATATTCCACACGGTTTCCTGTCGAGCCAAACGCTCATCAGTGATATTAATAAACTCCCCGGGCAGCTCACTTAAGTTCATGTCGCTGTCCAGCTGCTGAGCCACAGGCTGCTGTCCAACTTGCGGTTGCTTAACGGGCGGCGAAGGAGAAGTCCACGCCTACATGGGGGTAGAGTCATAATCGTGCATCAGGATAGGGCGGTGGTGCTGCAGCAGCGCGCGAATAAACTGCTGCCGCCGCCGCTCCGTCCTGCAGGAATACAACATGGCAGTGGTCTCCTCAGCGATGATTCGCACCGCCCGCAGCATAAGGCGCCTTGTCCTCCGGGCACAGCAGCGCACCCTGATCTCACTTAAATCAGCACAGTAACTGCAGCACAGCACCACAATATTGTTCAAAATCCCACAGTGCAAGGCGCTGTATCCAAAGCTCATGGCGGGGACCACAGAACCCACGTGGCCATCATACCACAAGCGCAGGTAGATTAAGTGGCGACCCCTCATAAACACGCTGGACATAAACATTACCTCTTTTGGCATGTTGTAATTCACCACCTCCCGGTACCATATAAACCTCTGATTAAACATGGCGCCATCCACCACCATCCTAAACCAGCTGGCCAAAACCTGCCCGCCGGCTATACACTGCAGGGAACCGGGACTGGAACAATGACAGTGGAGAGCCCAGGACTCGTAACCATGGATCATCATGCTCGTCATGATATCAATGTTGGCACAACACAGGCACACGTGCATACACTTCCTCAGGATTACAAGCTCCTCCCGCGTTAGAACCATATCCCAGGGAACAACCCATTCCTGAATCAGCGTAAATCCCACACTGCAGGGAAGACCTCGCACGTAACTCACGTTGTGCATTGTCAAAGTGTTACATTCGGGCAGCAGCGGATGATCCTCCAGTATGGTAGCGCGGGTTTCTGTCTCAAAAGGAGGTAGACGATCCCTACTGTACGGAGTGCGCCGAGACAACCGAGATCGTGTTGGTCGTAGTGTCATGCCAAATGGAACGCCGGACGTAGTCATATTTCCTGAAGCAAAACCAGGTGCGGGCGTGACAAACAGATCTGCGTCTCCGGTCTCGCCGCTTAGATCGCTCTGTGTAGTAGTTGTAGTATATCCACTCTCTCAAAGCATCCAGGCGCCCCCTGGCTTCGGGTTCTATGTAAACTCCTTCATGCGCCGCTGCCCTGATAACATCCACCACCGCAGAATAAGCCACACCCAGCCAACCTACACATTCGTTCTGCGAGTCACACACGGGAGGAGCGGGAAGAGCTGGAAGAACCATGTTTTTTTTTTTATTCCAAAAGATTATCCAAAACCTCAAAATGAAGATCTATTAAGTGAACGCGCTCCCCTCCGGTGGCGTGGTCAAACTCTACAGCCAAAGAACAGATAATGGCATTTGTAAGATGTTGCACAATGGCTTCCAAAAGGCAAACGGCCCTCACGTCCAAGTGGACGTAAAGGCTAAACCCTTCAGGGTGAATCTCCTCTATAAACATTCCAGCACCTTCAACCATGCCCAAATAATTCTCATCTCGCCACCTTCTCAATATATCTCTAAGCAAATCCCGAATATTAAGTCCGGCCATTGTAAAAATCTGCTCCAGAGCGCCCTCCACCTTCAGCCTCAAGCAGCGAATCATGATTGCAAAAATTCAGGTTCCTCACAGACCTGTATAAGATTCAAAAGCGGAACATTAACAAAAATACCGCGATCCCGTAGGTCCCTTCGCAGGGCCAGCTGAACATAATCGTGCAGGTCTGCACGGACCAGCGCGGCCACTTCCCCGCCAGGAACCTTGACAAAAGAACCCACACTGATTATGACACGCATACTCGGAGCTATGCTAACCAGCGTAGCCCCGATGTAAGCTTTGTTGCATGGGCGGCGATATAAAATGCAAGGTGCTGCTCAAAAAATCAGGCAAAGCCTCGCGCAAAAAAGAAAGCACATCGTAGTCATGCTCATGCAGATAAAGGCAGGTAAGCTCCGGAACCACCACAGAAAAAGACACCATTTTTCTCTCAAACATGTCTGCGGGTTTCTGCATAAACACAAAATAAAATAACAAAAAAACATTTAAACATTAGAAGCCTGTCTTACAACAGGAAAAACAACCCTTATAAGCATAAGACGGACTACGGCCATGCCGGCGTGACCGTAAAAAAACTGGTCACCGTGATTAAAAAGCACCACCGACAGCTCCTCGGTCATGTCCGGAGTCATAATGTAAGACTCGGTAAACACATCAGGTTGATTCACATCGGTCAGTGCTAAAAAGCGACCGAAATAGCCCGGGGGAATACATACCCGCAGGCGTAGAGACAACATTACAGCCCCCATAGGAGGTATAACAAAATTAATAGGAGAGAAAAACACATAAACACCTGAAAAACCCTCCTGCCTAGGCAAAATAGCACCCTCCCGCTCCAGAACAACATACAGCGCTTCCACAGCGGCAGCCATAACAGTCAGCCTTACCAGTAAAAAAGAAAACCTATTAAAAAAACACCACTCGACACGGCACCAGCTCAATCAGTCACAGTGTAAAAAAGGGCCAAGTGCAGAGCGAGTATATATAGGACTAAAAAATGACGTAACGGTTAAAGTCCACAAAAAACACCCAGAAAACCGCACGCGAACCTACGCCCAGAAACGAAAGCCAAAAAACCCACAACTTCCTCAAATCGTCACTTCCGTTTTCCCACGTTACGTCACTTCCCATTTTAAGAAAACTACAATTCCCAACACATACAAGTTACTCCGCCCTAAAACCTACGTCACCCGCCCCGTTCCCACGCCCCGCGCCACGTCACAAACTCCACCCCCTCATTATCATATTGGCTTCAATCCAAAATAAGGTATATTATTGATGATGTTAATTAAGAATTCGGATCTGCGACGCGAGGCTGGATGGCCTTCCCCATTATGATTCTTCTCGCTTCCGGCGGCATCGGGATGCCCGCGTTGCAGGCCATGCTGTCCAGGCAGGTAGATGACGACCATCAGGGACAGCTTCAAGGCCAGCAAAAGGCCAGGAACCGTAAAAAGGCCGCGTTGCTGGCGTTTTTCCATAGGCTCCGCCCCCCTGACGAGCATCACAAAAATCGACGCTCAAGTCAGAGGTGGCGAAACCCGACAGGACTATAAAGATACCAGGCGTTTCCCCCTGGAAGCTCCCTCGTGCGCTCTCCTGTTCCGACCCTGCCGCTTACCGGATACCTGTCCGCCTTTCTCCCTTCGGGAAGCGTGGCGCTTTCTCATAGCTCACGCTGTAGGTATCTCAGTTCGGTGTAGGTCGTTCGCTCCAAGCTGGGCTGTGTGCACGAACCCCCCGTTCAGCCCGACCGCTGCGCCTTATCCGGTAACTATCGTCTTGAGTCCAACCCGGTAAGACACGACTTATCGCCACTGGCAGCAGCCACTGGTAACAGGATTAGCAGAGCGAGGTATGTAGGCGGTGCTACAGAGTTCTTGAAGTGGTGGCCTAACTACGGCTACACTAGAAGGACAGTATTTGGTATCTGCGCTCTGCTGAAGCCAGTTACCTTCGGAAAAAGAGTTGGTAGCTCTTGATCCGGCAAACAAACCACCGCTGGTAGCGGTGGTTTTTTTGTTTGCAAGCAGCAGATTACGCGCAGAAAAAAAGGATCTCAAGAAGATCCTTTGATCTTTTCTACGGGGTCTGACGCTCAGTGGAACGAAAACTCACGTTAAGGGATTTTGGTCATGAGATTATCAAAAAGGATCTTCACCTAGATCCTTTTAAATCAATCTAAAGTATATATGAGTAAACTTGGTCTGACAGTTACCAATGCTTAATCAGTGAGGCACCTATCTCAGCGATCTGTCTATTTCGTTCATCCATAGTTGCCTGACTCCCCGTCGTGTAGATAACTACGATACGGGAGGGCTTACCATCTGGCCCCAGTGCTGCAATGATACCGCGAGACCCACGCTCACCGGCTCCAGATTTATCAGCAATAAACCAGCCAGCCGGAAGGGCCGAGCGCAGAAGTGGTCCTGCAACTTTATCCGCCTCCATCCAGTCTATTAATTGTTGCCGGGAAGCTAGAGTAAGTAGTTCGCCAGTTAATAGTTTGCGCAACGTTGTTGCCATTGCTACAGGCATCGTGGTGTCACGCTCGTCGTTTGGTATGGCTTCATTCAGCTCCGGTTCCCAACGATCAAGGCGAGTTACATGATCCCCCATGTTGTGCAAAAAAGCGGTTAGCTCCTTCGGTCCTCCGATCGTTGTCAGAAGTAAGTTGGCCGCAGTGTTATCACTCATGGTTATGGCAGCACTGCATAATTCTCTTACTGTCATGCCATCCGTAAGATGCTTTTCTGTGACTGGTGAGTACTCAACCAAGTCATTCTGAGAATAGTGTATGCGGCGACCGAGTTGCTCTTGCCCGGCGTCAACACGGGATAATACCGCGCCACATAGCAGAACTTTAAAAGTGCTCATCATTGGAAAACGTTCTTCGGGGCGAAAACTCTCAAGGATCTTACCGCTGTTGAGATCCAGTTCGATGTAACCCACTCGTGCACCCAACTGATCTTCAGCATCTTTTACTTTCACCAGCGTTTCTGGGTGAGCAAAAACAGGAAGGCAAAATGCCGCAAAAAAGGGAATAAGGGCGACACGGAAATGTTGAATACTCATACTCTTCCTTTTTCAATATTATTGAAGCATTTATCAGGGTTATTGTCTCATGAGCGGATACATATTTGAATGTATTTAGAAAAATAAACAAATAGGGGTTCCGCGCACATTTCCCCGAAAAGTGCCACCTGACGTCTAAGAAACCATTATTATCATGACATTAACCTATAAAAATAGGCGTATCACGAGGCCCTTTCGTCTTCAAGAATTGGATCCGAATTC