LmxM.07.0100 | pitrilysin-like metalloprotease

  • Computed_GO_Component_IDs:        

  • Computed_GO_Components:        

  • Computed_GO_Function_IDs:  GO:0003824      GO:0046872      

  • Computed_GO_Functions:  catalytic activity      metal ion binding      

  • Computed_GO_Process_IDs:  GO:0006508      

  • Computed_GO_Processes:  proteolysis      

  • Curated_GO_Component_IDs:        

  • Curated_GO_Components:        

  • Curated_GO_Function_IDs:        

  • Curated_GO_Functions:        

  • Curated_GO_Processes:        

_IDPredictionOTHERSPmTPCS_Position
LmxM.07.0100OTHER0.7039560.0000670.295976
No Results

  • Fasta :-

    >LmxM.07.0100 MLRRSVRCLALRTSRREDLVFRSMHGFTLLKMRRIDDLHLVAYEMEHVRTGALYYHIDVE DNNNTFCIGFRTPAENNKGTSHVLEHTTLCGSKKYPVRDPFFMMLKRSLSSFMNAMTGSD YTLYPFSTTNRKDFQNLLDVYLDAVLHPLLREEDFKQEGHRVELEDKSTGSEDAAAQPSK RTRRLINNGVVFNEMRGVVSDPSNHFVHSLMRAMLPHTHYTYISGGYPPDILGLSYDELL SFQRRHYHPSNSITFTYGNLHPESHMAALNSYFADFEHAAPVVVPTLADQHRFTEPQLVH LEGPLDAMGNPQRQKRVAVSYAVPKENNKLEDVVALSVLDSLLSSGPSSPMFKNLIESQI GSKYAPMQGYAFYLSSPIITYGVAGMDEERADAEAEVLQAVESALRTVQRDGFDERRVRS VIFQEELQHRHRSADYGLNTCTGLCAMGLCRAQNNPLDFINWLPHLRRLADDNAASLLPR IETHLLSNPHRAVVSVSAKKEYLNKLQDQLKEADEAVNASATEADKDLVEKETKEGLQRL RAPQPNDVLPTLRIEDIPTESFSEPLPCRSSLSSTNGQVYTITHPTNGLVYVHGLIPFNA SLTSAMEHGELAQVPQSVMLLESLIGRTGAGKLSYKDHSIAVKLACSGFGFEPLLNESYM HKSTTITGTSYSFYTTKEKLKEALDLLSVTLLEPRFSADDADVYSCALSNLKMACSSLIQ SLQAEGNRYAVIRAVGELTRRGELREHWWGLSQSTHASEMLEKLQGCPEVSREAVSALLA DYAVFAREMATDMSRSLVWATCEDAHREEVERMLKEFLDAFPRTDSAARTHLFLPPRSTE KGVQQIIKKLPIDTSFVGLAIPNKLKWENPDQARVRVGCTLLSNEYLHRRVREEGGAYGS SCAASLHGEVGGVSMSSYRDPSPELTAKAFLEAGDWLSDRKNVTAERVSEAKLRLFSSID SPYAADSYGEAYFYNDLRQDTKQALRDALLSVTPEDVVNVAHYFTPQFTTIISILQPAGE SSDPAAVPPEVS
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/448 Sequence name : 448 Sequence length : 1032 VALUES OF COMPUTED PARAMETERS Coef20 : 5.452 CoefTot : 1.541 ChDiff : -24 ZoneTo : 16 KR : 6 DE : 0 CleavSite : 17 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.412 1.200 0.211 0.561 MesoH : -0.039 0.370 -0.291 0.267 MuHd_075 : 35.800 15.542 7.032 6.260 MuHd_095 : 40.872 17.113 7.147 9.756 MuHd_100 : 29.968 14.107 5.980 6.607 MuHd_105 : 15.199 10.242 4.164 2.909 Hmax_075 : -1.517 7.467 -1.308 0.910 Hmax_095 : 5.950 9.188 -0.240 3.141 Hmax_100 : -9.500 4.900 -2.429 0.630 Hmax_105 : -13.000 3.900 -2.429 -1.130 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.0084 0.9916 DFMC : 0.0117 0.9883 This protein is probably imported in mitochondria. f(Ser) = 0.1250 f(Arg) = 0.3750 CMi = 0.21008 CMi is the Chloroplast/Mitochondria Index It has been proposed by Von Heijne et al (Eur J Biochem,1989, 180: 535-545)
  • ##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 1032 LmxM.07.0100 MLRRSVRCLALRTSRREDLVFRSMHGFTLLKMRRIDDLHLVAYEMEHVRTGALYYHIDVEDNNNTFCIGFRTPAENNKGT 80 SHVLEHTTLCGSKKYPVRDPFFMMLKRSLSSFMNAMTGSDYTLYPFSTTNRKDFQNLLDVYLDAVLHPLLREEDFKQEGH 160 RVELEDKSTGSEDAAAQPSKRTRRLINNGVVFNEMRGVVSDPSNHFVHSLMRAMLPHTHYTYISGGYPPDILGLSYDELL 240 SFQRRHYHPSNSITFTYGNLHPESHMAALNSYFADFEHAAPVVVPTLADQHRFTEPQLVHLEGPLDAMGNPQRQKRVAVS 320 YAVPKENNKLEDVVALSVLDSLLSSGPSSPMFKNLIESQIGSKYAPMQGYAFYLSSPIITYGVAGMDEERADAEAEVLQA 400 VESALRTVQRDGFDERRVRSVIFQEELQHRHRSADYGLNTCTGLCAMGLCRAQNNPLDFINWLPHLRRLADDNAASLLPR 480 IETHLLSNPHRAVVSVSAKKEYLNKLQDQLKEADEAVNASATEADKDLVEKETKEGLQRLRAPQPNDVLPTLRIEDIPTE 560 SFSEPLPCRSSLSSTNGQVYTITHPTNGLVYVHGLIPFNASLTSAMEHGELAQVPQSVMLLESLIGRTGAGKLSYKDHSI 640 AVKLACSGFGFEPLLNESYMHKSTTITGTSYSFYTTKEKLKEALDLLSVTLLEPRFSADDADVYSCALSNLKMACSSLIQ 720 SLQAEGNRYAVIRAVGELTRRGELREHWWGLSQSTHASEMLEKLQGCPEVSREAVSALLADYAVFAREMATDMSRSLVWA 800 TCEDAHREEVERMLKEFLDAFPRTDSAARTHLFLPPRSTEKGVQQIIKKLPIDTSFVGLAIPNKLKWENPDQARVRVGCT 880 LLSNEYLHRRVREEGGAYGSSCAASLHGEVGGVSMSSYRDPSPELTAKAFLEAGDWLSDRKNVTAERVSEAKLRLFSSID 960 SPYAADSYGEAYFYNDLRQDTKQALRDALLSVTPEDVVNVAHYFTPQFTTIISILQPAGESSDPAAVPPEVS 1040 ................................................................................ 80 ................................................................................ 160 .......................P........................................................ 240 ...........................................................................P.... 320 ................................................................................ 400 ..................P............................................................. 480 ................................................................................ 560 ................................................................................ 640 ................................................................................ 720 ................................................................................ 800 ................................................................................ 880 ................................................................................ 960 ........................................................................ 1040 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 3 Name Pos Context Score Pred ____________________________v_________________ LmxM.07.0100 3 ----MLR|RS 0.071 . LmxM.07.0100 4 ---MLRR|SV 0.295 . LmxM.07.0100 7 MLRRSVR|CL 0.204 . LmxM.07.0100 12 VRCLALR|TS 0.080 . LmxM.07.0100 15 LALRTSR|RE 0.173 . LmxM.07.0100 16 ALRTSRR|ED 0.122 . LmxM.07.0100 22 REDLVFR|SM 0.115 . LmxM.07.0100 31 HGFTLLK|MR 0.056 . LmxM.07.0100 33 FTLLKMR|RI 0.091 . LmxM.07.0100 34 TLLKMRR|ID 0.129 . LmxM.07.0100 49 YEMEHVR|TG 0.070 . LmxM.07.0100 71 TFCIGFR|TP 0.076 . LmxM.07.0100 78 TPAENNK|GT 0.103 . LmxM.07.0100 93 TTLCGSK|KY 0.057 . LmxM.07.0100 94 TLCGSKK|YP 0.107 . LmxM.07.0100 98 SKKYPVR|DP 0.097 . LmxM.07.0100 106 PFFMMLK|RS 0.054 . LmxM.07.0100 107 FFMMLKR|SL 0.302 . LmxM.07.0100 131 PFSTTNR|KD 0.098 . LmxM.07.0100 132 FSTTNRK|DF 0.083 . LmxM.07.0100 151 VLHPLLR|EE 0.081 . LmxM.07.0100 156 LREEDFK|QE 0.072 . LmxM.07.0100 161 FKQEGHR|VE 0.071 . LmxM.07.0100 167 RVELEDK|ST 0.085 . LmxM.07.0100 180 AAAQPSK|RT 0.068 . LmxM.07.0100 181 AAQPSKR|TR 0.152 . LmxM.07.0100 183 QPSKRTR|RL 0.130 . LmxM.07.0100 184 PSKRTRR|LI 0.501 *ProP* LmxM.07.0100 196 VVFNEMR|GV 0.100 . LmxM.07.0100 212 FVHSLMR|AM 0.085 . LmxM.07.0100 244 ELLSFQR|RH 0.064 . LmxM.07.0100 245 LLSFQRR|HY 0.256 . LmxM.07.0100 292 TLADQHR|FT 0.230 . LmxM.07.0100 313 AMGNPQR|QK 0.089 . LmxM.07.0100 315 GNPQRQK|RV 0.069 . LmxM.07.0100 316 NPQRQKR|VA 0.617 *ProP* LmxM.07.0100 325 VSYAVPK|EN 0.073 . LmxM.07.0100 329 VPKENNK|LE 0.059 . LmxM.07.0100 353 PSSPMFK|NL 0.079 . LmxM.07.0100 363 ESQIGSK|YA 0.069 . LmxM.07.0100 390 AGMDEER|AD 0.082 . LmxM.07.0100 406 AVESALR|TV 0.082 . LmxM.07.0100 410 ALRTVQR|DG 0.149 . LmxM.07.0100 416 RDGFDER|RV 0.136 . LmxM.07.0100 417 DGFDERR|VR 0.109 . LmxM.07.0100 419 FDERRVR|SV 0.592 *ProP* LmxM.07.0100 430 QEELQHR|HR 0.086 . LmxM.07.0100 432 ELQHRHR|SA 0.280 . LmxM.07.0100 451 CAMGLCR|AQ 0.078 . LmxM.07.0100 467 NWLPHLR|RL 0.073 . LmxM.07.0100 468 WLPHLRR|LA 0.176 . LmxM.07.0100 480 AASLLPR|IE 0.096 . LmxM.07.0100 491 LLSNPHR|AV 0.137 . LmxM.07.0100 499 VVSVSAK|KE 0.065 . LmxM.07.0100 500 VSVSAKK|EY 0.085 . LmxM.07.0100 505 KKEYLNK|LQ 0.061 . LmxM.07.0100 511 KLQDQLK|EA 0.081 . LmxM.07.0100 526 SATEADK|DL 0.069 . LmxM.07.0100 531 DKDLVEK|ET 0.068 . LmxM.07.0100 534 LVEKETK|EG 0.058 . LmxM.07.0100 539 TKEGLQR|LR 0.086 . LmxM.07.0100 541 EGLQRLR|AP 0.070 . LmxM.07.0100 553 DVLPTLR|IE 0.070 . LmxM.07.0100 569 SEPLPCR|SS 0.107 . LmxM.07.0100 627 LESLIGR|TG 0.087 . LmxM.07.0100 632 GRTGAGK|LS 0.060 . LmxM.07.0100 636 AGKLSYK|DH 0.076 . LmxM.07.0100 643 DHSIAVK|LA 0.078 . LmxM.07.0100 662 NESYMHK|ST 0.103 . LmxM.07.0100 677 YSFYTTK|EK 0.062 . LmxM.07.0100 679 FYTTKEK|LK 0.057 . LmxM.07.0100 681 TTKEKLK|EA 0.073 . LmxM.07.0100 695 VTLLEPR|FS 0.073 . LmxM.07.0100 712 CALSNLK|MA 0.064 . LmxM.07.0100 728 LQAEGNR|YA 0.089 . LmxM.07.0100 733 NRYAVIR|AV 0.228 . LmxM.07.0100 740 AVGELTR|RG 0.079 . LmxM.07.0100 741 VGELTRR|GE 0.090 . LmxM.07.0100 745 TRRGELR|EH 0.175 . LmxM.07.0100 763 ASEMLEK|LQ 0.065 . LmxM.07.0100 772 GCPEVSR|EA 0.086 . LmxM.07.0100 787 DYAVFAR|EM 0.093 . LmxM.07.0100 795 MATDMSR|SL 0.102 . LmxM.07.0100 807 TCEDAHR|EE 0.066 . LmxM.07.0100 812 HREEVER|ML 0.118 . LmxM.07.0100 815 EVERMLK|EF 0.096 . LmxM.07.0100 823 FLDAFPR|TD 0.095 . LmxM.07.0100 829 RTDSAAR|TH 0.066 . LmxM.07.0100 837 HLFLPPR|ST 0.229 . LmxM.07.0100 841 PPRSTEK|GV 0.096 . LmxM.07.0100 848 GVQQIIK|KL 0.061 . LmxM.07.0100 849 VQQIIKK|LP 0.076 . LmxM.07.0100 864 GLAIPNK|LK 0.065 . LmxM.07.0100 866 AIPNKLK|WE 0.060 . LmxM.07.0100 874 ENPDQAR|VR 0.072 . LmxM.07.0100 876 PDQARVR|VG 0.090 . LmxM.07.0100 889 SNEYLHR|RV 0.136 . LmxM.07.0100 890 NEYLHRR|VR 0.132 . LmxM.07.0100 892 YLHRRVR|EE 0.340 . LmxM.07.0100 919 VSMSSYR|DP 0.152 . LmxM.07.0100 928 SPELTAK|AF 0.076 . LmxM.07.0100 940 GDWLSDR|KN 0.098 . LmxM.07.0100 941 DWLSDRK|NV 0.099 . LmxM.07.0100 947 KNVTAER|VS 0.096 . LmxM.07.0100 952 ERVSEAK|LR 0.056 . LmxM.07.0100 954 VSEAKLR|LF 0.097 . LmxM.07.0100 978 YFYNDLR|QD 0.074 . LmxM.07.0100 982 DLRQDTK|QA 0.061 . LmxM.07.0100 986 DTKQALR|DA 0.081 . ____________________________^_________________

  • Fasta :-

    >LmxM.07.0100 ATGCTGCGCAGATCGGTACGATGTCTGGCGCTGCGCACGAGCAGACGCGAAGACCTCGTC TTCAGAAGCATGCACGGCTTCACCCTGCTCAAGATGCGGCGCATCGATGACCTACACCTC GTGGCGTACGAAATGGAGCACGTCCGCACCGGCGCTCTCTACTACCACATCGACGTGGAG GACAACAATAACACCTTCTGCATCGGCTTCCGAACACCGGCGGAGAACAACAAGGGCACC TCCCACGTGCTGGAGCACACAACGCTATGCGGCAGCAAGAAGTATCCGGTGCGGGATCCG TTCTTCATGATGCTCAAGCGCTCCCTTAGCTCTTTCATGAACGCCATGACCGGGTCCGAC TACACGCTGTACCCCTTCTCGACCACCAATCGCAAGGACTTCCAAAATCTTCTCGACGTC TACCTCGACGCCGTCCTCCACCCATTGCTGCGAGAGGAGGACTTCAAGCAGGAGGGTCAC CGAGTGGAACTCGAGGACAAGTCGACGGGCAGCGAAGACGCTGCTGCGCAGCCGTCAAAG CGCACTCGCCGGCTTATCAACAACGGCGTCGTTTTCAACGAGATGCGCGGTGTCGTGTCG GATCCCAGCAACCACTTTGTGCACTCGCTGATGCGCGCCATGCTGCCGCACACACACTAC ACCTACATATCCGGCGGCTACCCGCCCGATATTCTGGGCCTCAGCTACGACGAGCTCCTG TCCTTCCAGAGGCGGCACTACCACCCAAGCAACAGCATCACCTTCACATACGGCAACCTG CATCCTGAGTCGCACATGGCAGCGTTAAACTCGTACTTTGCGGACTTCGAGCACGCGGCA CCAGTCGTAGTGCCGACGCTGGCAGACCAGCACCGTTTCACGGAGCCCCAGCTCGTGCAC CTGGAGGGTCCGCTGGACGCCATGGGCAACCCGCAGCGGCAGAAGCGCGTAGCCGTCTCC TACGCAGTACCGAAGGAAAATAATAAGTTGGAGGATGTCGTGGCACTCAGCGTGCTGGAC AGCCTTCTCTCTAGCGGTCCCAGCTCCCCCATGTTCAAGAACCTGATCGAGTCACAGATT GGCAGCAAGTACGCTCCGATGCAGGGGTACGCCTTCTATCTGTCCTCCCCGATCATCACC TATGGCGTAGCCGGCATGGATGAGGAGCGGGCAGACGCAGAGGCTGAAGTGCTGCAGGCT GTGGAGTCTGCGCTCCGCACGGTGCAGAGGGACGGCTTCGACGAGCGACGCGTGCGCTCC GTTATCTTCCAGGAGGAGCTGCAGCACCGTCACCGATCTGCCGACTACGGTCTCAACACG TGTACAGGCCTGTGTGCAATGGGTCTGTGCCGGGCGCAGAACAACCCGCTGGACTTTATC AACTGGCTGCCACACCTCCGGCGGCTGGCGGACGACAATGCGGCCTCGCTGCTGCCGCGC ATCGAGACGCACCTGCTGAGCAACCCCCACCGCGCCGTCGTATCCGTGTCAGCCAAGAAG GAGTATCTGAACAAGCTGCAGGACCAACTGAAGGAAGCGGATGAGGCGGTGAACGCGTCG GCGACGGAGGCTGACAAAGACCTCGTGGAGAAGGAGACGAAGGAGGGGCTCCAACGCCTC CGCGCGCCGCAGCCGAACGACGTGCTGCCCACTCTGCGCATCGAGGACATCCCCACCGAG TCGTTTTCGGAGCCCTTGCCGTGTCGCAGCTCTCTCTCGAGCACCAACGGTCAGGTGTAC ACAATCACGCACCCGACGAACGGCCTCGTGTACGTGCATGGACTCATCCCCTTCAATGCC TCTCTTACCAGTGCGATGGAGCACGGAGAGCTGGCGCAGGTGCCACAGAGCGTGATGCTG CTGGAGTCGCTGATCGGCCGCACCGGTGCCGGAAAGCTCTCTTACAAGGATCACTCCATT GCAGTGAAGCTGGCGTGCAGCGGGTTCGGCTTTGAGCCGCTGCTTAACGAGTCGTACATG CACAAGAGCACCACCATTACCGGCACTAGCTACAGCTTCTACACCACCAAGGAAAAGCTG AAGGAGGCGCTGGACTTGTTGAGCGTGACACTGCTGGAGCCGCGCTTCAGCGCCGACGAC GCCGATGTCTACTCCTGTGCGCTGTCGAATCTCAAGATGGCATGCTCGTCGTTAATCCAG TCTCTGCAGGCAGAGGGCAACCGCTACGCCGTCATCCGCGCCGTGGGGGAGCTCACCCGG CGCGGTGAGCTCCGCGAACACTGGTGGGGGCTGTCCCAGTCCACGCACGCGTCGGAGATG CTCGAGAAGCTTCAGGGGTGCCCGGAAGTGAGCCGGGAGGCCGTGAGCGCGCTGCTGGCC GACTACGCCGTCTTCGCGCGGGAGATGGCGACTGACATGTCGCGCAGTCTCGTTTGGGCG ACGTGTGAGGATGCGCACCGCGAGGAGGTTGAGCGGATGCTGAAGGAGTTCCTTGATGCG TTCCCGCGGACGGACTCTGCTGCGCGCACGCACCTGTTCCTGCCGCCACGCTCCACGGAG AAGGGGGTTCAGCAGATCATCAAGAAGCTGCCTATCGACACGTCCTTTGTGGGCCTGGCC ATACCGAACAAGTTGAAGTGGGAGAATCCCGACCAGGCACGGGTGCGGGTGGGCTGCACC CTGCTCTCCAACGAGTACTTGCACCGCCGCGTGCGAGAGGAAGGCGGCGCATACGGCTCC AGCTGCGCCGCCTCGCTCCACGGTGAGGTGGGCGGCGTGTCGATGTCAAGCTACCGCGAC CCCAGCCCGGAGCTCACCGCCAAAGCCTTCCTCGAGGCTGGCGATTGGCTCAGTGACCGG AAGAACGTCACAGCCGAGCGCGTAAGCGAGGCGAAGCTGCGCCTCTTCTCCTCCATCGAC TCTCCGTATGCGGCGGACTCGTACGGTGAGGCGTACTTCTATAATGATCTGCGGCAGGAC ACGAAGCAGGCCTTGCGCGATGCCCTGCTTTCCGTGACGCCAGAGGACGTTGTGAACGTG GCCCACTACTTCACGCCTCAATTCACCACCATTATCAGCATTCTCCAACCCGCAGGCGAG TCGAGCGATCCAGCCGCGGTGCCACCCGAGGTCTCGTAG
  • Download Fasta

  • Fasta :-

    MLRRSVRCLALRTSRREDLVFRSMHGFTLLKMRRIDDLHLVAYEMEHVRTGALYYHIDVE DNNNTFCIGFRTPAENNKGTSHVLEHTTLCGSKKYPVRDPFFMMLKRSLSSFMNAMTGSD YTLYPFSTTNRKDFQNLLDVYLDAVLHPLLREEDFKQEGHRVELEDKSTGSEDAAAQPSK RTRRLINNGVVFNEMRGVVSDPSNHFVHSLMRAMLPHTHYTYISGGYPPDILGLSYDELL SFQRRHYHPSNSITFTYGNLHPESHMAALNSYFADFEHAAPVVVPTLADQHRFTEPQLVH LEGPLDAMGNPQRQKRVAVSYAVPKENNKLEDVVALSVLDSLLSSGPSSPMFKNLIESQI GSKYAPMQGYAFYLSSPIITYGVAGMDEERADAEAEVLQAVESALRTVQRDGFDERRVRS VIFQEELQHRHRSADYGLNTCTGLCAMGLCRAQNNPLDFINWLPHLRRLADDNAASLLPR IETHLLSNPHRAVVSVSAKKEYLNKLQDQLKEADEAVNASATEADKDLVEKETKEGLQRL RAPQPNDVLPTLRIEDIPTESFSEPLPCRSSLSSTNGQVYTITHPTNGLVYVHGLIPFNA SLTSAMEHGELAQVPQSVMLLESLIGRTGAGKLSYKDHSIAVKLACSGFGFEPLLNESYM HKSTTITGTSYSFYTTKEKLKEALDLLSVTLLEPRFSADDADVYSCALSNLKMACSSLIQ SLQAEGNRYAVIRAVGELTRRGELREHWWGLSQSTHASEMLEKLQGCPEVSREAVSALLA DYAVFAREMATDMSRSLVWATCEDAHREEVERMLKEFLDAFPRTDSAARTHLFLPPRSTE KGVQQIIKKLPIDTSFVGLAIPNKLKWENPDQARVRVGCTLLSNEYLHRRVREEGGAYGS SCAASLHGEVGGVSMSSYRDPSPELTAKAFLEAGDWLSDRKNVTAERVSEAKLRLFSSID SPYAADSYGEAYFYNDLRQDTKQALRDALLSVTPEDVVNVAHYFTPQFTTIISILQPAGE SSDPAAVPPEVS

    No Results
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
LmxM.07.0100634 SAGKLSYKDH0.997unspLmxM.07.0100634 SAGKLSYKDH0.997unspLmxM.07.0100634 SAGKLSYKDH0.997unspLmxM.07.0100697 SEPRFSADDA0.997unspLmxM.07.0100839 TPPRSTEKGV0.993unspLmxM.07.0100917 SVSMSSYRDP0.997unspLmxM.07.0100922 SYRDPSPELT0.997unspLmxM.07.0100949 SAERVSEAKL0.991unspLmxM.07.0100957 SLRLFSSIDS0.997unspLmxM.07.0100961 SSSIDSPYAA0.993unspLmxM.07.0100967 SYAADSYGEA0.993unspLmxM.07.010014 SALRTSRRED0.996unspLmxM.07.0100420 SRRVRSVIFQ0.991unsp

     



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