LmxM.36.2840 | Flagellar Member 2

  • Computed_GO_Component_IDs:        

  • Computed_GO_Components:        

  • Computed_GO_Function_IDs:        

  • Computed_GO_Functions:        

  • Computed_GO_Process_IDs:        

  • Computed_GO_Processes:        

  • Curated_GO_Component_IDs:  GO:0005930      GO:0031514      

  • Curated_GO_Components:  axoneme      motile cilium      

  • Curated_GO_Function_IDs:        

  • Curated_GO_Functions:        

  • Curated_GO_Processes:        

_IDPredictionOTHERSPmTPCS_Position
LmxM.36.2840OTHER0.9999840.0000130.000003
No Results

  • Fasta :-

    >LmxM.36.2840 MGSAPSVQDHLQKWETALGELEQLCSVNRRLMGQDRIYGSGVALNDPHRTTDDEATSDRG GARRPSSLVSFSPTATAVTPEGGMGVSAGSFHRLNRNSASTAVTAPIPESRTGFGFTAYS GAPGASTVTTLNFVQGGATPLPGNATNDATNRSAGSASVGQQQSKHTRQQVLEIRKARMS LFRSYETENPDALTDLMQCSHFGAAAVALSYLLGGDANCKDRRRRVTLEDIFFATQSPLH MLHSGSPHLPIMTGIIREFLDVDNRFKGDYSLEAVHLDVSPTMGQVELGPNEVGDRQTRM QLPEFQRLITQDCEEETQAIRIVNYDPYVLEQAMLVDAFEDEDELNSPLATSVLGPNPHH MERQYSPRNEGAYAVVVDVRNAVQLMVTIAEGVVNDSLHVKLKEVPVASLFKAMMTAKEG HRAHGFIRVFKKELNPEFTTDEIKTFWTPELLSGKVLGTTQLGTNAVAISHHISPHIVGV AWAMHLLAGVRPGTHGYGNGLPVSDIIRTMKLPAEVFVDGVLPLEQVYEYAAGYVQRSKR DVDVHLYPVLTKIFREDAVPTISVFDLESILINVKDANVDPECPEHVMVIMYNACVAHNV LYIVEEPQWCVLAGYDQEMQTAVLIDAHPKTFSHTWSCPLDRLHKAMTGNGYLIFSKRGT NPASRRVGAPATMAPTVESRLELVERQHELNSSWEGKTAFAVPKAFTFPSLPVMPTMVAM TCTRLGVPTTFDDVVQRLPFEISALVIRNLTLEIMHVCLTQYLRVVGLQDEVQVKAYHGE SNADGLLTLQLPQLEELIQTSLDGNHLLLLHFDASHLLVNGASHPFGTLGMVVGYDAGLG SVRVADANPNSFLREWSAPLLEVFESVLDSDVTRKQRTRGVLRVSRAAAPSAAAGPVFAP PCSRPFRLELLPVLNVFLVSPSPHFQGMSFAFSQLGYYYSPEEIFYEAYLKTMDDQRRRG SQAFAWRDVEVSLSIINKKIDASFMAEGCRKFLESRNGHQSGTQETISVQVLEDIDVDEE LDELLEKSTRSSDTVLLLNYDVLRTHQLSNLGRSVAIVKSYNKEKQLVELWDAEYAVFGL SFVVTKQQLVEMGDLENVGSSPYGFVQFKRVAAGAAPKKLGLMSAPSTLEEEAELEAAAT AAEVR
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/240 Sequence name : 240 Sequence length : 1145 VALUES OF COMPUTED PARAMETERS Coef20 : 3.108 CoefTot : -0.293 ChDiff : -36 ZoneTo : 8 KR : 0 DE : 0 CleavSite : 0 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.929 1.571 0.216 0.624 MesoH : 0.264 0.737 -0.175 0.331 MuHd_075 : 17.240 9.339 5.288 2.173 MuHd_095 : 17.037 14.757 4.798 4.469 MuHd_100 : 21.167 19.043 5.305 5.487 MuHd_105 : 24.850 20.958 5.511 6.327 Hmax_075 : 7.962 5.513 -0.095 2.502 Hmax_095 : 8.137 8.400 -1.028 3.810 Hmax_100 : 9.300 8.700 -0.949 4.150 Hmax_105 : 16.700 16.400 1.762 5.990 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.9730 0.0270 DFMC : 0.9401 0.0599
  • ##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 1145 LmxM.36.2840 MGSAPSVQDHLQKWETALGELEQLCSVNRRLMGQDRIYGSGVALNDPHRTTDDEATSDRGGARRPSSLVSFSPTATAVTP 80 EGGMGVSAGSFHRLNRNSASTAVTAPIPESRTGFGFTAYSGAPGASTVTTLNFVQGGATPLPGNATNDATNRSAGSASVG 160 QQQSKHTRQQVLEIRKARMSLFRSYETENPDALTDLMQCSHFGAAAVALSYLLGGDANCKDRRRRVTLEDIFFATQSPLH 240 MLHSGSPHLPIMTGIIREFLDVDNRFKGDYSLEAVHLDVSPTMGQVELGPNEVGDRQTRMQLPEFQRLITQDCEEETQAI 320 RIVNYDPYVLEQAMLVDAFEDEDELNSPLATSVLGPNPHHMERQYSPRNEGAYAVVVDVRNAVQLMVTIAEGVVNDSLHV 400 KLKEVPVASLFKAMMTAKEGHRAHGFIRVFKKELNPEFTTDEIKTFWTPELLSGKVLGTTQLGTNAVAISHHISPHIVGV 480 AWAMHLLAGVRPGTHGYGNGLPVSDIIRTMKLPAEVFVDGVLPLEQVYEYAAGYVQRSKRDVDVHLYPVLTKIFREDAVP 560 TISVFDLESILINVKDANVDPECPEHVMVIMYNACVAHNVLYIVEEPQWCVLAGYDQEMQTAVLIDAHPKTFSHTWSCPL 640 DRLHKAMTGNGYLIFSKRGTNPASRRVGAPATMAPTVESRLELVERQHELNSSWEGKTAFAVPKAFTFPSLPVMPTMVAM 720 TCTRLGVPTTFDDVVQRLPFEISALVIRNLTLEIMHVCLTQYLRVVGLQDEVQVKAYHGESNADGLLTLQLPQLEELIQT 800 SLDGNHLLLLHFDASHLLVNGASHPFGTLGMVVGYDAGLGSVRVADANPNSFLREWSAPLLEVFESVLDSDVTRKQRTRG 880 VLRVSRAAAPSAAAGPVFAPPCSRPFRLELLPVLNVFLVSPSPHFQGMSFAFSQLGYYYSPEEIFYEAYLKTMDDQRRRG 960 SQAFAWRDVEVSLSIINKKIDASFMAEGCRKFLESRNGHQSGTQETISVQVLEDIDVDEELDELLEKSTRSSDTVLLLNY 1040 DVLRTHQLSNLGRSVAIVKSYNKEKQLVELWDAEYAVFGLSFVVTKQQLVEMGDLENVGSSPYGFVQFKRVAAGAAPKKL 1120 GLMSAPSTLEEEAELEAAATAAEVR 1200 ................................................................................ 80 ................................................................................ 160 ................................................................................ 240 ................................................................................ 320 ................................................................................ 400 ................................................................................ 480 ...........................................................P.................... 560 ................................................................................ 640 ................................................................................ 720 ................................................................................ 800 ................................................................................ 880 ................................................................................ 960 ................................................................................ 1040 ................................................................................ 1120 ......................... 1200 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 1 Name Pos Context Score Pred ____________________________v_________________ LmxM.36.2840 13 VQDHLQK|WE 0.066 . LmxM.36.2840 29 QLCSVNR|RL 0.085 . LmxM.36.2840 30 LCSVNRR|LM 0.202 . LmxM.36.2840 36 RLMGQDR|IY 0.115 . LmxM.36.2840 49 ALNDPHR|TT 0.109 . LmxM.36.2840 59 DEATSDR|GG 0.081 . LmxM.36.2840 63 SDRGGAR|RP 0.089 . LmxM.36.2840 64 DRGGARR|PS 0.153 . LmxM.36.2840 93 SAGSFHR|LN 0.095 . LmxM.36.2840 96 SFHRLNR|NS 0.223 . LmxM.36.2840 111 APIPESR|TG 0.084 . LmxM.36.2840 152 TNDATNR|SA 0.194 . LmxM.36.2840 165 VGQQQSK|HT 0.080 . LmxM.36.2840 168 QQSKHTR|QQ 0.100 . LmxM.36.2840 175 QQVLEIR|KA 0.096 . LmxM.36.2840 176 QVLEIRK|AR 0.065 . LmxM.36.2840 178 LEIRKAR|MS 0.208 . LmxM.36.2840 183 ARMSLFR|SY 0.216 . LmxM.36.2840 220 GGDANCK|DR 0.059 . LmxM.36.2840 222 DANCKDR|RR 0.088 . LmxM.36.2840 223 ANCKDRR|RR 0.115 . LmxM.36.2840 224 NCKDRRR|RV 0.133 . LmxM.36.2840 225 CKDRRRR|VT 0.343 . LmxM.36.2840 257 IMTGIIR|EF 0.074 . LmxM.36.2840 265 FLDVDNR|FK 0.086 . LmxM.36.2840 267 DVDNRFK|GD 0.061 . LmxM.36.2840 296 PNEVGDR|QT 0.101 . LmxM.36.2840 299 VGDRQTR|MQ 0.182 . LmxM.36.2840 307 QLPEFQR|LI 0.082 . LmxM.36.2840 321 EETQAIR|IV 0.075 . LmxM.36.2840 363 NPHHMER|QY 0.119 . LmxM.36.2840 368 ERQYSPR|NE 0.140 . LmxM.36.2840 380 AVVVDVR|NA 0.099 . LmxM.36.2840 401 NDSLHVK|LK 0.069 . LmxM.36.2840 403 SLHVKLK|EV 0.083 . LmxM.36.2840 412 PVASLFK|AM 0.066 . LmxM.36.2840 418 KAMMTAK|EG 0.070 . LmxM.36.2840 422 TAKEGHR|AH 0.091 . LmxM.36.2840 428 RAHGFIR|VF 0.111 . LmxM.36.2840 431 GFIRVFK|KE 0.122 . LmxM.36.2840 432 FIRVFKK|EL 0.158 . LmxM.36.2840 444 FTTDEIK|TF 0.056 . LmxM.36.2840 455 PELLSGK|VL 0.065 . LmxM.36.2840 491 HLLAGVR|PG 0.074 . LmxM.36.2840 508 PVSDIIR|TM 0.067 . LmxM.36.2840 511 DIIRTMK|LP 0.107 . LmxM.36.2840 537 AAGYVQR|SK 0.207 . LmxM.36.2840 539 GYVQRSK|RD 0.056 . LmxM.36.2840 540 YVQRSKR|DV 0.839 *ProP* LmxM.36.2840 552 LYPVLTK|IF 0.056 . LmxM.36.2840 555 VLTKIFR|ED 0.068 . LmxM.36.2840 575 SILINVK|DA 0.065 . LmxM.36.2840 630 LIDAHPK|TF 0.065 . LmxM.36.2840 642 WSCPLDR|LH 0.087 . LmxM.36.2840 645 PLDRLHK|AM 0.099 . LmxM.36.2840 657 GYLIFSK|RG 0.051 . LmxM.36.2840 658 YLIFSKR|GT 0.235 . LmxM.36.2840 665 GTNPASR|RV 0.139 . LmxM.36.2840 666 TNPASRR|VG 0.136 . LmxM.36.2840 680 APTVESR|LE 0.078 . LmxM.36.2840 686 RLELVER|QH 0.086 . LmxM.36.2840 697 NSSWEGK|TA 0.116 . LmxM.36.2840 704 TAFAVPK|AF 0.062 . LmxM.36.2840 724 VAMTCTR|LG 0.067 . LmxM.36.2840 737 FDDVVQR|LP 0.075 . LmxM.36.2840 748 ISALVIR|NL 0.098 . LmxM.36.2840 764 CLTQYLR|VV 0.095 . LmxM.36.2840 775 QDEVQVK|AY 0.070 . LmxM.36.2840 843 AGLGSVR|VA 0.098 . LmxM.36.2840 854 NPNSFLR|EW 0.118 . LmxM.36.2840 874 LDSDVTR|KQ 0.097 . LmxM.36.2840 875 DSDVTRK|QR 0.079 . LmxM.36.2840 877 DVTRKQR|TR 0.193 . LmxM.36.2840 879 TRKQRTR|GV 0.154 . LmxM.36.2840 883 RTRGVLR|VS 0.093 . LmxM.36.2840 886 GVLRVSR|AA 0.271 . LmxM.36.2840 904 FAPPCSR|PF 0.072 . LmxM.36.2840 907 PCSRPFR|LE 0.156 . LmxM.36.2840 951 FYEAYLK|TM 0.060 . LmxM.36.2840 957 KTMDDQR|RR 0.084 . LmxM.36.2840 958 TMDDQRR|RG 0.161 . LmxM.36.2840 959 MDDQRRR|GS 0.121 . LmxM.36.2840 967 SQAFAWR|DV 0.287 . LmxM.36.2840 978 SLSIINK|KI 0.099 . LmxM.36.2840 979 LSIINKK|ID 0.086 . LmxM.36.2840 990 FMAEGCR|KF 0.080 . LmxM.36.2840 991 MAEGCRK|FL 0.096 . LmxM.36.2840 996 RKFLESR|NG 0.102 . LmxM.36.2840 1027 LDELLEK|ST 0.075 . LmxM.36.2840 1030 LLEKSTR|SS 0.189 . LmxM.36.2840 1044 LNYDVLR|TH 0.075 . LmxM.36.2840 1053 QLSNLGR|SV 0.246 . LmxM.36.2840 1059 RSVAIVK|SY 0.078 . LmxM.36.2840 1063 IVKSYNK|EK 0.057 . LmxM.36.2840 1065 KSYNKEK|QL 0.072 . LmxM.36.2840 1086 LSFVVTK|QQ 0.068 . LmxM.36.2840 1109 YGFVQFK|RV 0.075 . LmxM.36.2840 1110 GFVQFKR|VA 0.215 . LmxM.36.2840 1118 AAGAAPK|KL 0.063 . LmxM.36.2840 1119 AGAAPKK|LG 0.080 . LmxM.36.2840 1145 ATAAEVR|-- 0.094 . ____________________________^_________________

  • Fasta :-

    >LmxM.36.2840 ATGGGTAGTGCACCGTCGGTGCAGGATCACCTGCAGAAGTGGGAGACCGCGCTCGGGGAG CTCGAGCAGCTCTGCTCGGTCAATCGACGCCTCATGGGCCAGGACCGCATTTACGGCAGT GGGGTCGCCTTGAACGACCCTCACAGGACCACGGATGACGAAGCCACCTCCGACCGAGGA GGAGCTCGGCGGCCATCATCTCTCGTTTCCTTCAGCCCCACCGCAACAGCAGTCACACCA GAGGGGGGTATGGGTGTCAGTGCGGGCAGTTTCCACAGACTAAACCGCAATAGCGCCTCG ACGGCTGTCACAGCACCAATACCGGAGAGCCGCACCGGCTTTGGATTTACGGCTTACAGC GGCGCGCCTGGCGCCAGCACGGTGACAACTTTGAACTTCGTTCAGGGCGGTGCCACTCCC CTGCCTGGCAACGCGACAAACGACGCGACGAACAGGAGTGCGGGTTCTGCCTCGGTTGGT CAACAGCAGTCCAAGCACACCCGTCAGCAAGTCCTCGAGATCCGAAAAGCGCGCATGAGC CTCTTTCGCAGCTACGAAACTGAAAACCCGGATGCGCTCACTGACCTCATGCAATGCAGC CACTTCGGCGCTGCTGCCGTGGCTCTCTCCTACCTACTCGGCGGTGACGCGAACTGCAAG GATCGCCGGCGTCGCGTCACCCTCGAAGACATTTTCTTCGCCACACAGTCCCCGCTCCAC ATGCTGCACTCCGGATCGCCACATCTGCCGATCATGACGGGCATCATCCGCGAGTTCCTC GACGTCGATAACCGCTTCAAGGGCGATTACAGCCTAGAGGCGGTGCACCTTGACGTGTCG CCGACGATGGGGCAGGTGGAACTCGGCCCGAACGAGGTGGGTGACCGGCAGACTCGCATG CAGCTGCCGGAATTCCAGCGCCTTATCACACAGGACTGCGAGGAAGAGACGCAGGCGATC CGCATCGTCAACTACGACCCGTACGTGCTGGAGCAAGCGATGCTTGTGGACGCCTTCGAA GACGAAGACGAACTGAACTCCCCGCTTGCGACCTCCGTGCTAGGGCCGAATCCGCACCAT ATGGAGCGGCAGTACTCCCCACGAAACGAGGGTGCGTATGCAGTAGTAGTCGACGTTCGC AACGCCGTTCAGCTTATGGTGACCATCGCTGAGGGCGTTGTGAACGACTCGCTGCACGTG AAGCTGAAGGAGGTACCCGTGGCGTCCCTCTTCAAGGCAATGATGACGGCCAAGGAAGGC CATCGCGCGCACGGCTTCATTCGCGTGTTCAAGAAGGAGCTCAACCCGGAGTTCACCACG GACGAGATCAAGACGTTCTGGACGCCAGAGCTGCTCAGCGGAAAGGTGCTTGGCACGACG CAGCTGGGCACGAACGCCGTGGCCATCTCTCATCACATCAGCCCCCACATCGTTGGCGTG GCGTGGGCGATGCATCTGCTGGCCGGTGTTCGCCCTGGCACGCACGGGTACGGCAACGGC CTGCCGGTGTCTGACATTATCCGGACCATGAAGCTGCCAGCCGAGGTGTTCGTGGATGGC GTACTACCTCTAGAGCAGGTGTACGAGTACGCCGCCGGCTACGTGCAGCGGTCGAAGCGC GACGTGGACGTGCACCTCTACCCGGTGCTCACGAAGATCTTCCGCGAGGACGCGGTGCCG ACGATATCGGTGTTCGACCTCGAGTCCATCCTTATCAACGTGAAGGACGCCAACGTGGAC CCGGAGTGCCCGGAGCATGTGATGGTGATAATGTACAATGCATGCGTGGCGCACAATGTG CTGTACATTGTGGAAGAACCGCAGTGGTGTGTGCTGGCCGGCTACGATCAGGAAATGCAA ACGGCCGTGCTGATCGATGCCCACCCGAAGACGTTTTCGCACACCTGGTCGTGCCCGCTG GATCGTCTTCACAAGGCCATGACCGGCAACGGCTACCTGATCTTCTCGAAGCGCGGCACG AATCCGGCGTCGCGGCGCGTTGGTGCCCCAGCCACGATGGCTCCCACAGTGGAGAGTCGA CTTGAGCTAGTGGAGCGCCAGCACGAGCTGAATAGCTCTTGGGAAGGCAAGACCGCATTT GCCGTGCCGAAGGCGTTCACGTTTCCCTCGCTGCCTGTCATGCCGACGATGGTAGCCATG ACATGCACCCGGCTCGGCGTTCCGACCACGTTTGACGACGTGGTGCAACGCCTTCCGTTC GAAATCTCTGCCCTGGTCATTCGCAACCTGACGCTGGAGATCATGCACGTGTGCCTGACA CAGTACTTGCGCGTGGTGGGGTTGCAGGACGAGGTCCAAGTAAAGGCGTATCATGGGGAA AGCAACGCGGACGGGCTCCTCACACTGCAGCTGCCGCAGCTCGAGGAACTCATCCAGACG TCACTCGACGGAAACCATCTCCTGCTGTTGCACTTCGATGCCAGCCACCTGCTCGTGAAC GGGGCCTCGCACCCGTTCGGTACCCTTGGTATGGTCGTCGGCTACGACGCGGGGCTCGGA AGCGTGCGCGTGGCGGACGCGAACCCCAACAGTTTCCTGCGTGAGTGGTCGGCACCGCTG CTAGAGGTGTTCGAGTCCGTGCTGGACAGCGATGTCACACGGAAGCAGCGCACCCGCGGC GTGCTGCGCGTCTCGCGTGCTGCCGCACCCTCGGCTGCGGCAGGTCCGGTGTTCGCGCCG CCGTGCAGCCGTCCTTTCCGCCTCGAACTGCTGCCCGTTCTGAACGTCTTCCTTGTTAGC CCCAGCCCCCACTTTCAAGGGATGTCCTTCGCCTTCTCGCAACTGGGATACTACTACAGC CCGGAGGAGATCTTCTACGAGGCGTACCTGAAGACGATGGATGATCAGCGGCGGCGCGGC AGCCAGGCCTTTGCGTGGCGTGATGTCGAGGTGTCGCTGTCGATCATCAACAAAAAGATC GACGCCTCTTTCATGGCGGAAGGGTGCCGGAAGTTCCTCGAATCGCGTAATGGACACCAG AGCGGGACCCAAGAGACGATCTCAGTGCAGGTTCTGGAGGACATCGACGTGGACGAGGAG CTGGACGAGCTTCTGGAGAAGTCTACGCGGTCCTCGGACACGGTCCTTCTGCTGAACTAC GACGTTCTGCGCACGCACCAGCTGTCGAACCTCGGCCGCAGTGTGGCTATCGTGAAGAGC TACAACAAGGAGAAGCAGCTGGTCGAGCTGTGGGATGCCGAGTACGCCGTCTTCGGCCTC TCCTTTGTAGTAACGAAGCAGCAGCTCGTCGAAATGGGCGATCTGGAGAACGTCGGCTCC AGCCCGTACGGCTTTGTCCAGTTCAAGCGTGTTGCAGCCGGCGCCGCCCCAAAGAAGCTG GGCCTTATGTCTGCGCCATCAACACTGGAGGAGGAAGCCGAACTCGAGGCGGCGGCCACC GCGGCAGAAGTAAGGTGA
  • Download Fasta

  • Fasta :-

    MGSAPSVQDHLQKWETALGELEQLCSVNRRLMGQDRIYGSGVALNDPHRTTDDEATSDRG GARRPSSLVSFSPTATAVTPEGGMGVSAGSFHRLNRNSASTAVTAPIPESRTGFGFTAYS GAPGASTVTTLNFVQGGATPLPGNATNDATNRSAGSASVGQQQSKHTRQQVLEIRKARMS LFRSYETENPDALTDLMQCSHFGAAAVALSYLLGGDANCKDRRRRVTLEDIFFATQSPLH MLHSGSPHLPIMTGIIREFLDVDNRFKGDYSLEAVHLDVSPTMGQVELGPNEVGDRQTRM QLPEFQRLITQDCEEETQAIRIVNYDPYVLEQAMLVDAFEDEDELNSPLATSVLGPNPHH MERQYSPRNEGAYAVVVDVRNAVQLMVTIAEGVVNDSLHVKLKEVPVASLFKAMMTAKEG HRAHGFIRVFKKELNPEFTTDEIKTFWTPELLSGKVLGTTQLGTNAVAISHHISPHIVGV AWAMHLLAGVRPGTHGYGNGLPVSDIIRTMKLPAEVFVDGVLPLEQVYEYAAGYVQRSKR DVDVHLYPVLTKIFREDAVPTISVFDLESILINVKDANVDPECPEHVMVIMYNACVAHNV LYIVEEPQWCVLAGYDQEMQTAVLIDAHPKTFSHTWSCPLDRLHKAMTGNGYLIFSKRGT NPASRRVGAPATMAPTVESRLELVERQHELNSSWEGKTAFAVPKAFTFPSLPVMPTMVAM TCTRLGVPTTFDDVVQRLPFEISALVIRNLTLEIMHVCLTQYLRVVGLQDEVQVKAYHGE SNADGLLTLQLPQLEELIQTSLDGNHLLLLHFDASHLLVNGASHPFGTLGMVVGYDAGLG SVRVADANPNSFLREWSAPLLEVFESVLDSDVTRKQRTRGVLRVSRAAAPSAAAGPVFAP PCSRPFRLELLPVLNVFLVSPSPHFQGMSFAFSQLGYYYSPEEIFYEAYLKTMDDQRRRG SQAFAWRDVEVSLSIINKKIDASFMAEGCRKFLESRNGHQSGTQETISVQVLEDIDVDEE LDELLEKSTRSSDTVLLLNYDVLRTHQLSNLGRSVAIVKSYNKEKQLVELWDAEYAVFGL SFVVTKQQLVEMGDLENVGSSPYGFVQFKRVAAGAAPKKLGLMSAPSTLEEEAELEAAAT AAEVR

    No Results
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
LmxM.36.2840366 SERQYSPRNE0.997unspLmxM.36.2840366 SERQYSPRNE0.997unspLmxM.36.2840366 SERQYSPRNE0.997unspLmxM.36.2840538 SYVQRSKRDV0.997unspLmxM.36.284057 SDEATSDRGG0.992unspLmxM.36.2840180 SKARMSLFRS0.995unsp

     



Dinesh Gupta lab Translational bioinformatics group, ICGEB, New Delhi, India