Title: Immunoproteomic Profiling of Antiviral Antibodies in New-Onset Type 1 Diabetes Using Protein Arrays
Special MTA: None
ATGGCCTCAAATGAGGGTGTGGAAAACAGACCCTTCCCCTATCTGACGGTGGATGCCGAC
CTGCTCTCGAACCTGCGGCAGTCAGCGGCTGAGGGGTTGTTTCATAGCTTTGACCTGCTG
GTGGGCAAGGATGCCAGAGAGGCGGGCATCAAGTTTGAGGTGCTACTCGGGGTCTACACG
AACGCCATCCAATATGTTCGCTTCCTGGAGACGGCACTGGCCGTGTCCTGTGTGAACACG
GAATTCAAAGACCTGAGTCGTATGACGGATGGCAAGATTCAATTTCGAATCTCCGTCCCC
ACCATTGCTCACGGGGACGGAAGGAGACCCAGCAAGCAGCGGACATTCATTGTGGTCAAA
AATTGCCACAAACACCACATTAGTACGGAAATGGAACTGTCCATGCTGGATCTGGAGATC
CTGCATAGTATCCCCGAGACCCCGGTCGAGTACGCAGAGTACGTGGGGGCTGTCAAGACC
GTGGCCTCGGCCCTACAGTTTGGGGTCGATGCCCTGGAGAGGGGCCTCATTAACACCGTC
CTGAGTGTGAAGCTTCGCCATGCCCCTCCCATGTTTATCCTGCAGACCCTGGCGGATCCC
ACCTTCACTGAGAGGGGGTTCTCCAAGACTGTCAAGTCTGACCTCATTGCCATGTTCAAG
AGGCATCTGCTGGAGCACTCCTTCTTCCTGGACCGGGCCGAGAACATGGGCTCCGGGTTT
TCTCAGTACGTGCGAAGCCGTCTCTCTGAGATGGTAGCGGCCGTGTCCGGGGAGAGCGTG
CTCAAGGGGGTCAGTACCTACACGACCGCCAAGGGGGGAGAGCCAGTGGGGGGGGTGTTT
ATTGTCACCGACAACGTTCTGCGCCAGCTCTTGACCTTCCTGGGTGAGGAGGCCGACAAC
CAGATTATGGGGCCCTCGAGCTATGCTTCTTTTGTGGTACGGGGGGAGAACCTGGTCACT
GCCGTGAGCTACGGGCGCGTGATGCGTACGTTTGAGCATTTCATGGCTAGGATCGTGGAC
TCACCGGAAAAAGCCGGAAGCACCAAGTCTGACCTGCCGGCTGTGGCCGCAGGGGTCGAG
GATCAGCCCCGGGTGCCGATCTCAGCCGCCGTCATCAAGCTGGGCAACCACGCGGTGGCC
GTGGAAAGCCTGCAAAAGATGTACAATGACACTCAGTCCCCATACCCCCTCAACAGAAGA
ATGCAGTACAGCTACTATTTCCCAGTGGGCCTGTTTATGCCCAATCCCAAGTACACGACC
TCCGCCGCCATCAAAATGCTGGACAACCCCACACAGCAGCTACCGGTGGAGGCATGGATC
GTAAACAAGAATAACCTTCTCCTCGCGTTTAACCTACAGAATGCTCTCAAGGTTCTCTGT
CACCCCCGACTCCACACACCCGCCCATACCCTAAACAGCCTCAACGCGGCCCCGGCCCCG
CGAGACAGGCGCGAGACCTACTCCCTGCAACACAGGAGGCCCAATCACATGAATGTGCTT
GTTATTGTGGACGAGTTCTATGATAACAAGTATGCAGCCCCCGTGACAGATATAGCTCTC
AAGTGCGGGCTGCCCACCGAAGACTTCCTCCACCCGTCCAATTATGACCTGCTGCGGCTG
GAGCTGCACCCCCTTTATGATATTTACATTGGCAGGGATGCCGGGGAGAGGGCCAGGCAC
AGGGCTGTGCACCGGCTAATGGTGGGTAACCTGCCGACTCCCCTGGCCCCAGCTGCATTC
CAAGAGGCCCGGGGGCAGCAGTTTGAGACCGCCACATCTCTGGCCCACGTGGTGGATCAG
GCCGTTATTGAGACTGTGCAGGATACTGCCTATGACACTGCCTATCCAGCCTTCTTCTAC
GTAGTCGAGGCTATGATCCACGGGTTTGAGGAAAAGTTTGTCATGAACGTGCCTTTGGTG
TCCCTGTGCATCAACACCTACTGGGAACGGTCAGGGAGGCTTGCCTTTGTGAACAGCTTT
TCCATGATCAAGTTCATCTGCCGCCACCTGGGAAATAACGCCATCTCCAAGGAGGCCTAT
TCCATGTATAGAAAAATCTATGGGGAACTTATAGCCCTAGAGCAGGCCCTGATGCGCCTG
GCCGGGTCAGATGTTGTGGGGGATGAGAGCGTGGGTCAGTATGTCTGCGCTCTCCTGGAC
CCTAACCTGCTCCCCCCGGTGGCCTACACAGACATTTTCACCCATCTTCTCACCGTTAGT
GACCGGGCCCCCCAGATTATTATCGGAAATGAGGTTTACGCTGACACCCTGGCCGCGCCC
CAGTTTATTGAGAGGGTTGGAAACATGGATGAGATGGCTGCCCAATTTGTGGCCTTGTAC
GGCTACCGGGTTAACGGAGACCACGACCACGATTTCCGTCTGCACCTAGGCCCTTATGTA
GATGAGGGGCATGCGGATGTGCTGGAAAAGATCTTTTACTACGTTTTCCTCCCAACCTGC
ACCAATGCCCACATGTGCGGCCTCGGGGTGGACTTTCAGCACGTGGCCCAGACCCTGGCC
TACAACGGGCCAGCCTTCAGCCACCATTTTACCAGGGACGAGGACATCCTCGACAATTTG
GAGAATGGGACGCTCAGGGATCTGCTGGAGATCTCCGACCTCCGCCCCACCGTGGGCATG
ATCAGGGACCTCAGCGCCTCATTCATGACCTGCCCCACTTTCACCCGTGCCGTGCGTGTG
TCGGTGGACAATGACGTTACGCAGCAGCTGGCCCCGAATCCCGCCGACAAGCGGACAGAG
CAGACTGTTTTGGTGAACGGGCTGGTGGCCTTTGCCTTCTCCGAGAGGACCCGGGCCGTC
ACCCAGTGTCTCTTTCACGCCATTCCTTTCCATATGTTTTACGGGGACCCGCGAGTGGCT
GCCACCATGCACCAGGATGTTGCCACCTTTGTTATGCGCAATCCTCAGCAGCGGGCCGTG
GAAGCCTTCAACCGGCCAGAGCAGCTCTTTGCAGAGTACCGGGAGTGGCACCGCTCGCCC
ATGGGCAAATACGCGGCCGAATGTCTTCCTTCCCTCGTTTCAATCAGTGGAATGACCGCC
ATGCACATCAAGATGTCCCCCATGGCCTATATTGCCCAGGCCAAGCTCAAGATCCACCCA
GGGGTGGCCATGACCGTGGTCAGGACCGATGAGATCCTCTCTGAAAACATATTGTTTAGC
TCCAGGGCCTCAACATCCATGTTCATTGGGACCCCAAATGTTAGCCGCCGGGAGGCCAGG
GTGGACGCGGTAACCTTTGAGGTGCATCACGAGATGGCCTCCATCGACACCGGGCTTAGT
TATAGCTCGACCATGACTCCGGCCAGGGTGGCGGCCATCACTACTGACATGGGTATCCAC
ACCCAAGACTTCTTTAGCGTCTTTCCGGCCGAGGCCTTTGGCAACCAGCAAGTCAATGAC
TACATCAAGGCCAAGGTGGGCGCTCAGCGCAATGGGACGCTGCTTCGGGACCCCAGGACA
TACCTGGCAGGTATGACTAATGTTAATGGAGCTCCAGGACTCTGCCACGGCCAGCAGGCC
ACCTGTGAGATTATCGTAACACCGGTCACGGCAGACGTGGCTTATTTTCAAAAGTCCAAC
TCTCCAAGGGGACGGGCCGCCTGTGTGGTCTCCTGTGAAAACTACAATCAGGAGGTTGCC
GAGGGGCTCATCTATGACCATTCTCGCCCGGATGCCGCCTATGAATACCGGAGCACTGTG
AATCCCTGGGCATCTCAGCTGGGTTCTCTGGGTGACATCATGTACAACTCCTCCTATCGC
CAGACGGCCGTCCCGGGCCTCTACAGCCCCTGCCGGGCATTTTTCAACAAGGAGGAGCTT
CTGCGCAACAACAGGGGACTCTACAACATGGTCAACGAGTACAGCCAGCGACTTGGAGGG
CACCCAGCCACCAGCAACACAGAGGTGCAGTTTGTAGTGATTGCTGGCACTGACGTGTTT
CTGGAGCAGCCCTGCAGCTTTCTGCAGGAGGCATTCCCCGCACTCTCAGCCTCCTCCCGG
GCACTCATCGATGAGTTTATGTCTGTCAAACAGACCCACGCCCCCATCCATTACGGACAC
TATATAATTGAAGAGGTGGCGCCGGTACGAAGAATATTAAAGTTTGGAAATAAGGTGGTT
TTTTGA
MASNEGVENRPFPYLTVDADLLSNLRQSAAEGLFHSFDLLVGKDAREAGIKFEVLLGVYT NAIQYVRFLETALAVSCVNTEFKDLSRMTDGKIQFRISVPTIAHGDGRRPSKQRTFIVVK NCHKHHISTEMELSMLDLEILHSIPETPVEYAEYVGAVKTVASALQFGVDALERGLINTV LSVKLRHAPPMFILQTLADPTFTERGFSKTVKSDLIAMFKRHLLEHSFFLDRAENMGSGF SQYVRSRLSEMVAAVSGESVLKGVSTYTTAKGGEPVGGVFIVTDNVLRQLLTFLGEEADN QIMGPSSYASFVVRGENLVTAVSYGRVMRTFEHFMARIVDSPEKAGSTKSDLPAVAAGVE DQPRVPISAAVIKLGNHAVAVESLQKMYNDTQSPYPLNRRMQYSYYFPVGLFMPNPKYTT SAAIKMLDNPTQQLPVEAWIVNKNNLLLAFNLQNALKVLCHPRLHTPAHTLNSLNAAPAP RDRRETYSLQHRRPNHMNVLVIVDEFYDNKYAAPVTDIALKCGLPTEDFLHPSNYDLLRL ELHPLYDIYIGRDAGERARHRAVHRLMVGNLPTPLAPAAFQEARGQQFETATSLAHVVDQ AVIETVQDTAYDTAYPAFFYVVEAMIHGFEEKFVMNVPLVSLCINTYWERSGRLAFVNSF SMIKFICRHLGNNAISKEAYSMYRKIYGELIALEQALMRLAGSDVVGDESVGQYVCALLD PNLLPPVAYTDIFTHLLTVSDRAPQIIIGNEVYADTLAAPQFIERVGNMDEMAAQFVALY GYRVNGDHDHDFRLHLGPYVDEGHADVLEKIFYYVFLPTCTNAHMCGLGVDFQHVAQTLA YNGPAFSHHFTRDEDILDNLENGTLRDLLEISDLRPTVGMIRDLSASFMTCPTFTRAVRV SVDNDVTQQLAPNPADKRTEQTVLVNGLVAFAFSERTRAVTQCLFHAIPFHMFYGDPRVA ATMHQDVATFVMRNPQQRAVEAFNRPEQLFAEYREWHRSPMGKYAAECLPSLVSISGMTA MHIKMSPMAYIAQAKLKIHPGVAMTVVRTDEILSENILFSSRASTSMFIGTPNVSRREAR VDAVTFEVHHEMASIDTGLSYSSTMTPARVAAITTDMGIHTQDFFSVFPAEAFGNQQVND YIKAKVGAQRNGTLLRDPRTYLAGMTNVNGAPGLCHGQQATCEIIVTPVTADVAYFQKSN SPRGRAACVVSCENYNQEVAEGLIYDHSRPDAAYEYRSTVNPWASQLGSLGDIMYNSSYR QTAVPGLYSPCRAFFNKEELLRNNRGLYNMVNEYSQRLGGHPATSNTEVQFVVIAGTDVF LEQPCSFLQEAFPALSASSRALIDEFMSVKQTHAPIHYGHYIIEEVAPVRRILKFGNKVV F*
Coding Sequence Details
Recommended Growth Condition: