Title: Immunoproteomic Profiling of Antiviral Antibodies in New-Onset Type 1 Diabetes Using Protein Arrays
Special MTA: None
ATGTCTGGGGGACTCTTCTATAACCCTTTCCTAAGACCTAATAAAGGCCTTCTGAAAAAG
CCTGACAAGGAGTACCTGCGTCTCATTCCCAAGTGTTTCCAGACACCAGGCGCCGCAGGG
GTGGTGGATGTGCGGGGGCCTCAGCCCCCCCTGTGCTTCTACCAAGACTCCCTGACGGTG
GTGGGGGGTGACGAGGATGGAAAGGGCATGTGGTGGCGCCAGCGTGCCCAAGAGGGCACG
GCAAGGCCGGAGGCAGACACCCACGGAAGCCCTCTGGACTTCCATGTCTACGACATACTC
GAGACGGTGTACACGCACGAGAAATGCGCCGTCATTCCATCGGATAAACAGGGGTATGTG
GTGCCATGTGGCATCGTCATCAAGCTACTGGGCCGGCGCAAGGCCGATGGGGCCAGCGTG
TGTGTGAACGTGTTTGGGCAGCAGGCCTACTTCTACGCCAGCGCGCCTCAGGGTCTGGAC
GTGGAGTTTGCAGTCCTCAGCGCCCTCAAGGCCAGCACCTTCGACCGCAGGACCCCCTGC
CGGGTCTCGGTGGAGAAGGTCACGCGCCGTTCCATTATGGGCTACGGCAACCATGCCGGC
GACTACCACAAGATAACCCTCTCCCATCCCAACAGTGTGTGTCACGTGGCCACGTGGCTG
CAAGACAAGCACGGGTGTCGGATCTTTGAGGCCAACGTGGATGCCACGCGCCGCTTTGTC
CTGGACAATGACTTTGTCACCTTTGGCTGGTACAGCTGCCGCCGCGCCATCCCCCGCCTC
CAGCACCGGGACTCGTACGCCGAGCTCGAGTACGACTGTGAGGTGGGCGACCTCTCGGTC
CGGCGTGAAGACAGCTCCTGGCCCTCCTACCAGGCCCTGGCCTTCGATATCGAGTGTCTA
GGGGAGGAGGGCTTCCCCACGGCCACCAACGAGGCTGACCTGATCCTGCAGATATCCTGC
GTCCTCTGGTCGACAGGTGAGGAGGCCGGGCGCTATAGGCGCATCCTGCTGACGCTGGGC
ACCTGCGAAGACATAGAGGGGGTTGAGGTCTACGAGTTCCCATCGGAGCTGGACATGCTC
TACGCCTTCTTCCAGCTCATCAGAGACCTCAGCGTGGAGATTGTGACCGGCTACAACGTG
GCCAACTTTGACTGGCCCTACATTCTGGACAGAGCCAGGCACATCTACAGCATCAACCCA
GCCTCTCTGGGCAAAATTAGGGCTGGGGGCGTCTGCGAGGTCAGGCGACCCCATGATGCG
GGCAAGGGCTTCTTGCGGGCCAACACCAAGGTCCGCATCACCGGCCTCATCCCCATAGAC
ATGTACGCCGTGTGCCGGGACAAGCTCAGTCTCTCAGACTACAAGCTGGACACAGTAGCC
AGGCACCTACTGGGGGCCAAGAAGGAGGATGTGCATTACAAGGAGATTCCTCGCCTCTTT
GCAGCGGGCCCCGAGGGGCGCAGGCGGCTCGGCATGTACTGCGTGCAGGACTCGGCCCTG
GTCATGGATCTGCTAAACCATTTCGTGATCCACGTGGAGGTGGCAGAGATTGCCAAGATC
GCTCACATCCCCTGCAGGCGGGTGCTGGACGATGGGCAGCAGATCCGCGTGTTCTCCTGC
CTCCTGGCGGCCGCCCAAAAGGAAAACTTTATCCTGCCCATGCCCTCGGCCTCTGACCGG
GACGGCTACCAGGGGGCCACCGTCATCCAGCCCCTGTCCGGATTCTACAACTCCCCGGTT
CTGGTGGTGGACTTTGCCAGCCTCTACCCGAGCATCATTCAGGCTCATAATCTCTGTTAT
TCTACCATGATAACGCCGGGAGAAGAGCACAGGCTAGCCGGCCTGCGCCCGGGAGAAGAC
TATGAGTCCTTCAGGCTCACGGGGGGCGTCTACCACTTTGTGAAGAAGCACGTGCACGAG
TCCTTCTTGGCTAGTCTGTTGACCTCCTGGCTGGCCAAGCGCAAGGCCATCAAGAAGCTG
CTGGCGGCCTGCGAGGATCCGCGCCAAAGGACCATCCTCGACAAGCAGCAGCTGGCCATC
AAGTGCACGTGCAACGCCGTCTACGGCTTCACCGGGGTGGCCAATGGCCTCTTTCCCTGC
CTCTCCATCGCCGAGACGGTGACGCTGCAGGGCCGCACGATGTTGGAGCGGGCCAAGGCC
TTCGTGGAGGCCCTGAGCCCCGCCAACCTGCAGGCCCTGGCCCCCTCCCCGGACGCCTGG
GCGCCCCTCAACCCCGAGGGCCAGCTTCGAGTCATCTACGGGGACACAGACTCGCTGTTT
ATCGAGTGCCGGGGGTTTTCAGAGAGCGAGACCCTGCGCTTTGCCGAGGCCCTGGCCGCC
CACACCACCAGGAGCCTGTTTGTGGCCCCCATCTCCCTGGAGGCCGAGAAGACCTTCTCC
TGCCTGATGCTGATTACAAAGAAGAGATATGTGGGGGTGCTGACGGACGGCAAGACCCTG
ATGAAGGGGGTGGAGCTCGTCCGGAAGACGGCCTGCAAGTTTGTGCAGACACGCTGCCGG
CGCGTGCTCGACCTGGTGCTGGCGGATGCCCGGGTAAAGGAGGCGGCCAGCCTCCTCTCC
CACCGGCCCTTCCAAGAGTCATTTACACAAGGGCTACCTGTGGGCTTTTTGCCCGTCATT
GACATCCTAAACCAGGCCTACGCAGACCTCCGTGAAGGCAGGGTCCCCATGGGGGAGCTC
TGCTTTTCAACGGAGCTCAGCCGCAAGCTCTCAGCCTACAAGAGCACCCAGATGCCTCAC
CTGGCTGTCTACCAGAAGTTCGTCGAGCGCAACGAGGAACTGCCCCAGATCCACGACCGC
ATCCAGTACGTCTTTGTGGAGCCCAAGGGGGGAGTGAAGGGGGCGAGAAAGACGGAGATG
GCCGAGGACCCGGCCTATGCCGAGCGGCACGGCGTTCCCGTGGCCGTGGATCATTATTTC
GACAAGCTGCTCCAAGGAGCGGCCAACATCCTCCAGTGCCTCTTTGATAACAACTCCGGG
GCCGCCCTCTCCGTCCTCCAGAATTTTACAGCCCGCCCACCATTCTAA
MSGGLFYNPFLRPNKGLLKKPDKEYLRLIPKCFQTPGAAGVVDVRGPQPPLCFYQDSLTV VGGDEDGKGMWWRQRAQEGTARPEADTHGSPLDFHVYDILETVYTHEKCAVIPSDKQGYV VPCGIVIKLLGRRKADGASVCVNVFGQQAYFYASAPQGLDVEFAVLSALKASTFDRRTPC RVSVEKVTRRSIMGYGNHAGDYHKITLSHPNSVCHVATWLQDKHGCRIFEANVDATRRFV LDNDFVTFGWYSCRRAIPRLQHRDSYAELEYDCEVGDLSVRREDSSWPSYQALAFDIECL GEEGFPTATNEADLILQISCVLWSTGEEAGRYRRILLTLGTCEDIEGVEVYEFPSELDML YAFFQLIRDLSVEIVTGYNVANFDWPYILDRARHIYSINPASLGKIRAGGVCEVRRPHDA GKGFLRANTKVRITGLIPIDMYAVCRDKLSLSDYKLDTVARHLLGAKKEDVHYKEIPRLF AAGPEGRRRLGMYCVQDSALVMDLLNHFVIHVEVAEIAKIAHIPCRRVLDDGQQIRVFSC LLAAAQKENFILPMPSASDRDGYQGATVIQPLSGFYNSPVLVVDFASLYPSIIQAHNLCY STMITPGEEHRLAGLRPGEDYESFRLTGGVYHFVKKHVHESFLASLLTSWLAKRKAIKKL LAACEDPRQRTILDKQQLAIKCTCNAVYGFTGVANGLFPCLSIAETVTLQGRTMLERAKA FVEALSPANLQALAPSPDAWAPLNPEGQLRVIYGDTDSLFIECRGFSESETLRFAEALAA HTTRSLFVAPISLEAEKTFSCLMLITKKRYVGVLTDGKTLMKGVELVRKTACKFVQTRCR RVLDLVLADARVKEAASLLSHRPFQESFTQGLPVGFLPVIDILNQAYADLREGRVPMGEL CFSTELSRKLSAYKSTQMPHLAVYQKFVERNEELPQIHDRIQYVFVEPKGGVKGARKTEM AEDPAYAERHGVPVAVDHYFDKLLQGAANILQCLFDNNSGAALSVLQNFTARPPF*
Coding Sequence Details
Recommended Growth Condition: