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comparison fibronectin/test-data/fibronectin_report.html @ 0:0c6cfb9906f3 draft default tip
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| author | cbib |
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| date | Wed, 10 Nov 2021 15:15:50 +0000 |
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| 1 <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN""http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd"><html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en"><head><meta http-equiv="Content-Type" content="text/html; charset=utf-8" /><title>Fibronectin Report</title><link href="http://twitter.github.com/bootstrap/assets/css/bootstrap.css" rel="stylesheet" /><style type="text/css">body {padding-top: 40px;}.subhead {padding: 40px 0;}.subhead h1 {font-size: 60px;}.fasta { font-family: Monaco, Menlo, Consolas, "Courier New", monospace; font-size: 12px;}code.grey{color: #636D71;}</style></head><body><a id="top"></a><div class="navbar navbar-fixed-top"><div class="navbar-inner"><div class="container"><a class="brand" href="#top">Fibronectin Report</a><div class="nav-collapse collapse"><ul class="nav"><li><a href="#input">Input data</a></li><li><a href="#analysis">Sequences analysis</a></li><li><a href="#variable">Variable regions analysis</a></li><li><a href="#cluster">Clustering</a></li><li><a href="#stat">Statistics</a></li><li><a href="#annex">Annex</a></li></ul></div></div></div></div><div class="container-fluid"><header class="subhead"><h1>Fibronectin Report</h1></header><div class="page-header"><a id="input"></a><h2>Input data</h2></div><p>Input file:<br/><code class="grey">fibronectin_datatest.fasta</code></p><p>Number of sequences in input file:<br/><code class="grey">36</code></p><p>Pattern of the sequence bank:<br/><code class="grey">AAAGSSVSSVPTKLEVVAATPTSLLISWDA:4-6:V:1:YYRITYGETGGNSPVQEFTVPG:3:TATISGLSPGVDYTITVYA:11-12:PISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAETVESCLAKSHTENSFTNVWKDDKTLDRYANYE</code></p><p>5' restriction site:<br/><code class="grey">GCGGCCGC</code></p><p>3' restriction site:<br/><code class="grey">GGTACC</code></p><div class="page-header"><a id="analysis"></a><h2>Sequences analysis</h2></div><p>Caption:</p><ul><li class="text-success">Valid sequences that will be part of the next analysis </li><li class="text-warning">Good sequences but will not be part of the next analysis</li><li class="text-error">Rejected sequences</li></ul><table class="table table-striped table-bordered"><tr><th class="text-error">Absence of restriction sites</th><th class="text-error">Incorrect number of nucleotides between the restriction sites</th><th class="text-error">Stop codon <u>inside</u> the area of interest</th><th class="text-warning">Mutation in the conserved regions</th><th class="text-success">Valid sequences</th><th>Amber codon in the sequence (<u>inside</u> the area of interest)</th></tr><tr><td class="text-error">1 sequence(s) (2.78%)</td><td class="text-error">6 sequence(s) (16.67%)</td><td class="text-error">25 sequence(s) (69.44%)</td><td class="text-warning">0 sequence(s) (0.00%)</td><td class="text-success">4 sequence(s) (11.11%)</td><td>0 sequence(s)</td></tr><tr><td class="text-error">XL2-3_PSEXSEQ-REV_34</td><td class="text-error">XL1_22_PSEXSEQ-REV_24<br/>XL1_24_PSEXSEQ-REV_26<br/>XL1_30_PSEXSEQ-REV_30<br/>XL1_4_PSEXSEQ-REV_8<br/>XL2-2_PSEXSEQ-REV_33<br/>XL3-4_PSEXSEQ-REV_40</td><td class="text-error">XL1_10_PSEXSEQ-REV_13<br/>XL1_11_PSEXSEQ-REV_14<br/>XL1_13_PSEXSEQ-REV_16<br/>XL1_14_PSEXSEQ-REV_17<br/>XL1_15_PSEXSEQ-REV_18<br/>XL1_16_PSEXSEQ-REV_19<br/>XL1_17_PSEXSEQ-REV_20<br/>XL1_1_PSEXSEQ-REV_5<br/>XL1_23_PSEXSEQ-REV_25<br/>XL1_25_PSEXSEQ-REV_27<br/>XL1_26_PSEXSEQ-REV_28<br/>XL1_29_PSEXSEQ-REV_29<br/>XL1_33_PSEXSEQ-REV_23<br/>XL1_3_PSEXSEQ-REV_7<br/>XL1_5_PSEXSEQ-REV_9<br/>XL1_6_PSEXSEQ-REV_10<br/>XL1_8_PSEXSEQ-REV_11<br/>XL1_9_PSEXSEQ-REV_12<br/>XL2-1_PSEXSEQ-REV_32<br/>XL2-4_PSEXSEQ-REV_35<br/>XL2-5_PSEXSEQ-REV_36<br/>XL3-1_PSEXSEQ-REV_37<br/>XL3-2_PSEXSEQ-REV_38<br/>XL3-3_PSEXSEQ-REV_39<br/>XL3-5_PSEXSEQ-REV_41</td><td class="text-warning"></td><td class="text-success">XL1_12_PSEXSEQ-REV_15<br/>XL1_18_PSEXSEQ-REV_21<br/>XL1_19_PSEXSEQ-REV_22<br/>XL1_2_PSEXSEQ-REV_6</td><td></td></tr></table><div class="page-header"><a id="variable"></a><h2>Variable regions analysis</h2></div><p>The following group of sequences are identical clones on the variable regions:</p><p>No clone was found.</p><p>Here's the distribution of the repeated sequences in variable regions:</p><table class="table table-striped table-bordered"><thead><tr><th>Variable region</th><th>Repeated sequence</th><th>Number of occurrences (percentage of valid sequences)</th></tr></thead><tbody><tr><td rowspan="1">3</td><td>YSY</td><td>2 (50.00%)</td></tr></tbody></table><div class="page-header"><a id="cluster"></a><h2>Clustering</h2></div><p>The following clusters were generated by MCL:</p><div class="row-fluid"><div class="span6"><pre>4 sequences (100.00% of valid sequences)<br/>XL1_12_PSEXSEQ-REV_15<br/>XL1_18_PSEXSEQ-REV_21<br/>XL1_19_PSEXSEQ-REV_22<br/>XL1_2_PSEXSEQ-REV_6 | |
| 2 </pre></div></div><div class="page-header"><a id="stat"></a><h2>Statistics</h2></div><p>Here's some statistics about the valid sequences:</p><p>Mean for the pairwise alignement scores: 25.92<br/>Standard deviation: 3.89</p><div class="row-fluid"><div class="span6"><img src="distri.png" alt="Distribution of the pairwise alignment score"></div><div class="span6"><table class="table table-striped table-bordered"><thead><tr><th>Pairwise Alignment Score</th><th>Number of occurrences</th></tr></thead><tbody><tr><td>19.00</td><td>1</td></tr><tr><td>23.80</td><td>1</td></tr><tr><td>26.30</td><td>1</td></tr><tr><td>27.30</td><td>2</td></tr><tr><td>31.80</td><td>1</td></tr></tbody></table></div></div><div class="page-header"><a id="annex"></a><h2>Annex</h2></div><p><strong>Valid protein sequences</strong> in FASTA format:</p><textarea class="span8 fasta" type="text" rows="20" readonly="readonly">>XL1_12_PSEXSEQ-REV_15 | |
| 3 AAAGSSVSSVPTKLEVVAATPTSLLISWDANLPNSAVHYYRITYGETGGNSPVQEFTVPGSSYTATISGLSPGVDYTITV | |
| 4 YAHNDCNTIVATCPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAR | |
| 5 >XL1_18_PSEXSEQ-REV_21 | |
| 6 AAAGSSVSSVPTKLEVVAATPTSLLISWDAIYRPVAYYRITYGETGGNSPVQEFTVPGYSYTATISGLSPGVDYTITVYA | |
| 7 PIGHFDVLVTIPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRD | |
| 8 >XL1_19_PSEXSEQ-REV_22 | |
| 9 AAAGSSVSSVPTKLEVVAATPTSLLISWDASIFRGIVLYYRITYGETGGNSPVQEFTVPGYSYTATISGLSPGVDYTITV | |
| 10 YAHGTSFSAISCAFPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAM | |
| 11 >XL1_2_PSEXSEQ-REV_6 | |
| 12 AAAGSSVSSVPTKLEVVAATPTSLLISWDAPLGDVFYYRITYGETGGNSPVQEFTVPGSYYTATISGLSPGVDYTITVYA | |
| 13 TGARTSADGFIPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAR | |
| 14 </textarea><p>Multiple sequence alignment of the <strong>valid sequences</strong> generated by Clustal Omega:</p><textarea class="span8 fasta" type="text" rows="20" readonly="readonly">CLUSTAL O(1.2.3) multiple sequence alignment | |
| 15 | |
| 16 | |
| 17 XL1_12_PSEXSEQ-REV_15 AAAGSSVSSVPTKLEVVAATPTSLLISWDANLPNSAVHYYRITYGETGGNSPVQEFTVPG | |
| 18 XL1_18_PSEXSEQ-REV_21 AAAGSSVSSVPTKLEVVAATPTSLLISWDAIY--RPVAYYRITYGETGGNSPVQEFTVPG | |
| 19 XL1_19_PSEXSEQ-REV_22 AAAGSSVSSVPTKLEVVAATPTSLLISWDASIFRGIVLYYRITYGETGGNSPVQEFTVPG | |
| 20 XL1_2_PSEXSEQ-REV_6 AAAGSSVSSVPTKLEVVAATPTSLLISWDAPL--GDVFYYRITYGETGGNSPVQEFTVPG | |
| 21 ****************************** * ********************** | |
| 22 | |
| 23 XL1_12_PSEXSEQ-REV_15 SSYTATISGLSPGVDYTITVYAHNDCNTI-VATCPISINYRTGTGGSGGSHHHHHHHHGG | |
| 24 XL1_18_PSEXSEQ-REV_21 YSYTATISGLSPGVDYTITVYAPIGHFDV-LVTIPISINYRTGTGGSGGSHHHHHHHHGG | |
| 25 XL1_19_PSEXSEQ-REV_22 YSYTATISGLSPGVDYTITVYAHGTSFSAISCAFPISINYRTGTGGSGGSHHHHHHHHGG | |
| 26 XL1_2_PSEXSEQ-REV_6 SYYTATISGLSPGVDYTITVYATGARTSA-DGFIPISINYRTGTGGSGGSHHHHHHHHGG | |
| 27 ******************** ************************** | |
| 28 | |
| 29 XL1_12_PSEXSEQ-REV_15 SYPYDVPDYAPRVG*GRVGSKDIRAR | |
| 30 XL1_18_PSEXSEQ-REV_21 SYPYDVPDYAPRVG*GRVGSKDIRD- | |
| 31 XL1_19_PSEXSEQ-REV_22 SYPYDVPDYAPRVG*GRVGSKDIRAM | |
| 32 XL1_2_PSEXSEQ-REV_6 SYPYDVPDYAPRVG*GRVGSKDIRAR | |
| 33 ************************ | |
| 34 </textarea><p><strong>Protein sequences with an incorrect number of nucleotides between the restriction sites</strong> in FASTA format:</p><textarea class="span8 fasta" type="text" rows="20" readonly="readonly">>XL1_22_PSEXSEQ-REV_24 | |
| 35 AAAGSSVSSVPTKLEVVAATPTSLLISWDALITFVAYYRITYGETGGTPRFRNSPSRVLILPQRFPACHRVSTIPLRFTL | |
| 36 PTPPTTTTSSSRFLSITVPVPAVRAVAITITITIMVVRIRMTCQTMHHAWARDAWDPKISEPI | |
| 37 >XL1_24_PSEXSEQ-REV_26 | |
| 38 AAAGSSVSSVPTKLEVVAATPTSLLISWDAHSSPDYVCYYRITYGETGVTPGSGIHRPG*FLNRNDFRPVTGCRLYHYGL | |
| 39 RFELLTYLLIEL*SDFYQLPYRYRRFGR*PSPSPSPSWWFVSV*RARLCTTRGLGTRGIQRYQSK | |
| 40 >XL1_30_PSEXSEQ-REV_30 | |
| 41 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPSAATPTTRFL | |
| 42 SITVPVPAVRAVAITITITIMVVRIRMTCQTMHHAWARDAWDPKIS | |
| 43 >XL1_4_PSEXSEQ-REV_8 | |
| 44 AAAGSSVSSVPTKLEVVAATPTSLLISWDAPFTDHCVVYYRITYGETGGNPRFRNSPSRVLIIPQRFPACHRVSTIPLRF | |
| 45 TLTTPAATTTAPTPRFLSITVPVPAVRAVAITITITIMVVRIRMTCQTMHHAWARDAWDPKISEQS | |
| 46 >XL2-2_PSEXSEQ-REV_33 | |
| 47 AAAGSSVSSVPTKLEVVAATPTSLLISWDACHTFVNYYRITYGETGGNSPVQEFTRPGLFLYRNDFRPVTGCRLYHYGLR | |
| 48 *PLPPLLRLPRPDFYQLPYRYRRFGR*PSPSPSPSWWFVSV*RARLCTTRGLGTRGIQRYPE | |
| 49 >XL3-4_PSEXSEQ-REV_40 | |
| 50 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTSRVLIIPQRFPACHRVSTIPLRFTL | |
| 51 PASTTASSTAADFYQLPYRYRRFGR*PSPSPSPSWWFVSV*RARLCTTRGLGTRGIQRYQSER | |
| 52 </textarea><p><strong>Protein sequences with a stop codon</strong> in FASTA format:</p><textarea class="span8 fasta" type="text" rows="20" readonly="readonly">>XL1_10_PSEXSEQ-REV_13 | |
| 53 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 54 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAT | |
| 55 >XL1_11_PSEXSEQ-REV_14 | |
| 56 AAAGSSVSSVPTKLEVVAATPTSLLISWDAHGNCVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 57 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAE | |
| 58 >XL1_13_PSEXSEQ-REV_16 | |
| 59 AAAGSSVSSVPTKLEVVAATPTSLLISWDAPRSFVRYYRITYGETGGNSPVQEFTVPGSYSTATISGLSPGVDYTITVYA | |
| 60 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAK | |
| 61 >XL1_14_PSEXSEQ-REV_17 | |
| 62 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSYTATISGLSPGVDYTITVYA | |
| 63 RYFIYSYISHSTPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAK | |
| 64 >XL1_15_PSEXSEQ-REV_18 | |
| 65 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 66 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRC | |
| 67 >XL1_16_PSEXSEQ-REV_19 | |
| 68 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGYYSTATISGLSPGVDYTITVYA | |
| 69 CGGVNANSSDCFPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAK | |
| 70 >XL1_17_PSEXSEQ-REV_20 | |
| 71 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 72 SVPIHFSCRGCPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIS | |
| 73 >XL1_1_PSEXSEQ-REV_5 | |
| 74 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 75 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIP | |
| 76 >XL1_23_PSEXSEQ-REV_25 | |
| 77 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSYYTATISGLSPGVDYTITVYA | |
| 78 GDISDNPFSRCPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAN | |
| 79 >XL1_25_PSEXSEQ-REV_27 | |
| 80 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 81 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAR | |
| 82 >XL1_26_PSEXSEQ-REV_28 | |
| 83 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 84 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKRYP | |
| 85 >XL1_29_PSEXSEQ-REV_29 | |
| 86 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 87 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAP | |
| 88 >XL1_33_PSEXSEQ-REV_23 | |
| 89 AAAGSSVSSVPTKLEVVAATPTSLLISWDASQSNVSYYRITYGETGGNSPVQEFTVPGCYSTATISGLSPGVDYTITVYA | |
| 90 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAEN | |
| 91 >XL1_3_PSEXSEQ-REV_7 | |
| 92 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 93 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAS | |
| 94 >XL1_5_PSEXSEQ-REV_9 | |
| 95 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 96 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAN | |
| 97 >XL1_6_PSEXSEQ-REV_10 | |
| 98 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGYYSTATISGLSPGVDYTITVYA | |
| 99 NATVSNFHPINSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDFRAK | |
| 100 >XL1_8_PSEXSEQ-REV_11 | |
| 101 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 102 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAK | |
| 103 >XL1_9_PSEXSEQ-REV_12 | |
| 104 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVCYYRITYGETGGNSPVQEFTVPGSYSTATISGLSPGVDYTITVYA | |
| 105 SLVNDDVHAVHHPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIQS | |
| 106 >XL2-1_PSEXSEQ-REV_32 | |
| 107 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 108 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKEIRAM | |
| 109 >XL2-4_PSEXSEQ-REV_35 | |
| 110 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 111 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAN | |
| 112 >XL2-5_PSEXSEQ-REV_36 | |
| 113 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSYYTATISGLSPGVDYTITVYA | |
| 114 SGYCVIVANSYPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIP | |
| 115 >XL3-1_PSEXSEQ-REV_37 | |
| 116 AAAGSSVSSVPTKLEVVAATPTSLLISCDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 117 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRSR | |
| 118 >XL3-2_PSEXSEQ-REV_38 | |
| 119 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 120 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAR | |
| 121 >XL3-3_PSEXSEQ-REV_39 | |
| 122 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 123 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAS | |
| 124 >XL3-5_PSEXSEQ-REV_41 | |
| 125 AAAGSSVSSVPTKLEVVAATPTSLLISWDAS*SSVSYYRITYGETGGNSPVQEFTVPGSSSTATISGLSPGVDYTITVYA | |
| 126 SSS*RISSSSSSPISINYRTGTGGSGGSHHHHHHHHGGSYPYDVPDYAPRVG*GRVGSKDIRAT | |
| 127 </textarea></div></body></html> |