Tan0020192 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CTTCAAAATCACCCGCGAAGCCGTTGAGAGAATTTCGTTGTGGATAATGTGAGAGATAAGGGGTCGAGCAACACTTCTCTGTTCCTTTCCTTTTCTCTTCAATGGCGACTCTGCAGCAACTCCTCAGACCTTCATGGACATCTCTTTTCGCTTCCTCCTCTCCTCGCCATTCCCTCTCTCAATCTCAAGTTCACCCTCGAAGTGTTAATTCTACTACTCCCAAAGCTTCTCTTCAGAATTCTTCCATCAATCGCCGGCAGTTTGTAGCTGAGACCGCAGCCGCGGTTTCTCTGTCGCTTTCTCCGTTGATTGGCCCCGTACAACCGGCGAAGTCCGAAGAGAATCTGTCGGAGTGGGAGAGACTTTACCTTCCTATCGATCCCGGTGTTGTCCTTCTCGATATTGCTTTTGTGCCCGATGATTTGGACCATGGTTAGTTTTGATAGCTTTGGTTTCTTTTGCTGCAGACATCAACGAATAATGTAGGAGAATTTTTTGATTTCTTTTGTTTTTCTACTACGAATTTTAGTGTTTTGGGAACTTGCTAGTCACATTAATTAACTGTTGGAATTGGAAACATCTGAAGTTTGGGAGGATTTTTACATTGAACGGCTATTAGGCGGTTTAATTGTTTGTTAAATTGTGTTCTAATTAAGTTAAGCTGGTCTTCATTTCCAATTGTTGTGTAATTGAAATCGTGGAAACTGGAAAGCAATTTCTGATTACCATTTCTTCAAATAATTTTATGGTTTCGAGTTCCTTCGACTTTGACACTTTCAGCCCACTGCAGGCTTCCTTTTGGGGACTAGACAAACCATTTTAGAGACAAAAGATGGTGGAAGAACGTGGGCTCCACGTTCAATACCCTCGGCTGAAGAAGAAGATTTTAACTACCGATTTAATGCTATTAGCTTCAAAGGAAAAGAGGGATGGATTGTTGGAAAACCTGCAATTCTGTTGTACACTTCGGATGCTGGGGAAAGCTGGGAAAGGATACCTCTTAGTGCTCAGCTTCCTGGAGATATGGTAATAACTGTTTTATTTTTTAATCATCGATAAGGAATTCATTTACGATAGTGCTTGAATTTTAGTTTGTTCTGTTTTTAATATATCCTCGAATGCTTGGCTGAATGGTAAGTTAAAGATTTTTCTTTATCCATTGTAGTTATAATGCTCATTTAATATAGTTAAACAAGGTAAGACCGTAAGAGCAATAAACGATTATTCACAGCTATTAATTAAGATGGAAATTTTAGTTTTTTTTTAACATATCTACAGCTTTAAATTTATCTGTTCTTTTCTACCAGAAAGTGTTTATATTTAACACTAGAGTGGTTGATTCTATTATAAAACTTCAGGTCTACATTAAAGCAACGGGAGAAAAAAGTGCTGAGATGGTTACTGATGAAGGTGCAATATATGTTACATCAAACAAGGGATATAATTGGAAGGCTGCAGTTCAGGAGACTGTTTCTGCCACTCTTAATAGGTGAGCTTCAGCAGGGAAAAATTTTCCATTCTATGAGGTTTAAAATAAAAGATTCGTTGTTTGGAATTTAACCTTGAAATCATTGCAGAATAATTGATGAGATTTGACTGGCAGCTTGTGGCAGGAAATCATAAGCCACACTCCACAGTTCTTTGTTTAGCTCATTAAAAGAAAAAATTCAATCCTGATTACGATTTGCTAATGTGGGTTCTTTACCCTTCTCAGAACAGTTTCTAGTGGTATAAGTGGTGCAAGCTATTATACTGGAACCTTTAACACAGTAAATCGCTCTCCCGATGGGCGTTATGTAGCTGTTTCAAGTCGTGGTAACTTCTACCTCACCTGGGAGCCTGGGCAGGTTTAACTTCTATATTTCTTTCTCTCTATCTCTTTTCTTCTAACTGTATTACTCTGAAGTGGTTGTGGAAGCAGTTTGCTCCTGCTAAATGAGACCGTTAAGTGCTGAGTTTCTTGTTGGGCTTAATTGCAATATTTGTAAGTCATTAAAACTCGGCTTTATTTGCAATTCCAGCCATTCTGGCAGCCGCATAATAGAGCTATTGCAAGGAGGATTCAAAACATGGGGTGGAGAGCTGATGGTGGTCTTTGGCTTCTTGTTCGTGGAGGAGGACTTTTTCTTAGTAAAGGGACAGGGGTAAGTGAAATTGAGAATTTGTGGACCGTTCCTTTGTGTTTCTACTTTCTAGTAAAGCCACCGTAATGGAAAATTTGAAAAATGGTTTAGAATTGCAATGTGGTTTGATTTAAACCTTTAACAAGAATCATTTCCCCCCTTCTACTAGTTACTCAAGGATTGAACATTGTATCGATAAGTTTTCATCTTTAGACTTGTGGCTTCATAATAACTCAATAACGGAATCCTATAACCGCATTGCTTTTGAGATATGCTATCATTAGAAACTTTTGTAATTTTTCTTCTTAATCAAAATCATGAAAACGTTGTAAGTGAACAAAACTAATTCTTCATCATGTTCATGATTTTCTTGAAATCAGAGTGACAAGTAAATTCTAGATTGTCATTCTACAGGTTATATCTATGTTGTTGCTTCCCAGATTTTCAGCTAGACCTCTCAGCCAACTCCTGTTAAATATTAACTGCTTGTTGAATTCAATATGTTTAATATAACAGATAAGTGAGGATTTTGAAGAAGTTCCAGTTCAAAGCCGAGGTTTTGGCATATTAGATGTCGGTTATCGTTCAAAGGTAAGTTTTTAAAGATCATTTAAATGGCTATACTTTTGTGCATCCTCATTCATTCTTGAAGACTCCTGCCGATTTTGTGATTAAGATAGAAATATCATATTTGTTTGTTGTAAATAGCTAAAATTGACCTTCTTGGAGGCTGTACTCAATGGATCTGGTTGATTTGTGTGGCAGATTACATAAGGGAGTGCCAGACAGAAGCCTCAATTTGATTATTTAGTTTTTTATTAGACATGCTATAATATGTTGAACTGAAAGATACATTACTAGACGTGCACTGTGCAGCACTAATTATTAGCATTCTAGCACCAAAATAAATGTGTGTGAGAGAGAGAGACAAAGAGAGCACAAATGATTAGATGAATGTAAAAGTGGCTAGATAAGAGAAACAGAGAGAGAATGAGATAGAATTATCTGGATGGCTAAATGACTAGATCAAGAAAAGACTTATGATTCATCTTGGTTAGCACGTGTTCTCATGCTTTCCAACTTACATAACTGTTTCTGATTTCCTCCTATACAACATCAACTGCCGACGTGTTGCTTTTCTAACTAGTTGAGGGCGGACTGTACCTGGTAAAGTTAGTTTGTATTTGAGCAGGTTATTCTTTCGACCATGGTAGCAAGTATGAATGAGAGCAAGAAAAAGAAAATTCATTTTTTAAAGGATTAGTTTGTGCATGAAATATAGCTGGAAAAGCCTGTGTTTGTGACAATAAGAGAAAAAAAAATATATTTTTCAGACATTTTAATTAGCCCGATACATATTTCTGAAATAAGGTGTGGGTATGTTCTCCATCTTCTCTGGAGTAGTTAGGTTTCTCATTTAATCACATATCTTCCCGCAATTCTTAGCGTGAGGAATGATGGTACTATTGGAGAACTTTTACAATCTTGTGTTCATAATCAATAATTTGCATTGCCCAAGATACCTTGAGCTTGAAGTCGGAAGTCATGTATATATTGTGCAAAGTTGTGCATATCTCATCATCCCTTGGCAATGAATATACTTGAACAGGATTTTCTGTTCTATAGGTTGTACACCTGTGTTCTTGAGTTCTAAAGATACATATACTTCTGGATTTATCATAAGCACCTAACAAAAATGAAGTCATCCCTTTACCCAAAATTGATCGTCGCCTTGGTGGATTTTTTTGAATTTTTTTTATTTCTGGTGTGAATTGTACAGGAAGAGGCTTGGGCTGCTGGGGGAAGTGGAGTACTTCTGAAAACTACAAATGGTGGCAAGACATGGACCCGTGATAAAGCAGCTGACAATATTGCGGCTAACCTATACTCTGTAAAGTGAGTATGACCATACTGTAAACTCGAGTTAGTATTACAATTTCTGAAATTACCTCATTACTCATGGACACTTTGGCATTTACTTACTATAACTGTATGACTATCCCTTTATAAACTCTCTTTGGCTGTCCCCTGCGGATGAATAAAGTGTAAGAAGAAAAATCAAAGCTCTATAGTTTATACCTTGCTTTTATTGTTTGAAATGACTTTTGGAAGTTAAAAAATGCTTTCAACCTGTTAAAAGCACTTTTCAAAATTTTTATAGTGTTTAATTAGATAATTAAAAATGATTTTTTAACACTTGAAAATACTTTTAAATTACATCTTTCAAAAGTATTTATAAAAGGAGTACTCCACTATTTTTTTTTTTCCAAAAGTCATCCTAAGCTCAACTGTAACGTAAAAATAATATCAGGTTTTGTTGCAAAAAAAACCCAACACTTCCAATCATAATCAATATGGCTGCAAACACAGTGCAATTGTGCTATAATTTTTCAGAAGAAATTTAGGGCATTGAGTTTGGTAGTGAGCATGCGTTCTTTACTTTCAATTCACTTTCACATATTTTCTCATTTAATCTATTTACATCTCTGCAGGTTTATAAACGATAAGAAAGGCTTTGTGCTCGGAAATGACGGGGTGTTACTTCAATATCTTGGTTGAAATTTGAGATTTTACTTGGTAATTAATTCATATCACCCTTTTCCTTCTTCTCTTTGAATTTTCTTTGCCATAGCCTCTCAGGCACTTGCTGACACTGTTTAATTTCTTCTGCTTGGAAAAAAAGAAGAAATTATTGACCACAATCAATTGAAACTTGAAGCAATATAAAAATGTTAATTTAAAATGTTTAGGACTCCATTTGACGATGTTTTCTGTTTTTTAAAAGTATGCTTATTTATCTGTTTTCAATCTAATTCAAGAACAGATATTTTGTTTGTTGGAATTTTGTTGAACTTCAAAAATGTTTCAGAAAGGCTTTTTATAAACTTTATTTTAAAAAACAGAATACATAATAGTGAATTCAAGGGAGTAGACATACATTTTTGACTTGCAAAACAAGAGAATTTATGCTTATTGCTGTTCTTGAAGCTGAGTTTTCACACATGATTAATTTAGTTTGAGAGCTATTGTTCGAATATTAGAGATTCTTTTCGGGCATGAAAATCAAAATTTCCGTTTATTGCATGGTTATGTTGAAGAATTGTTGTAGTGTTCTCATTGTCATAGCATTGTTATATCAAACGGGCCTAAATTTTAAAGAATTAGGCTTTGATAACCATTTTGTTTTTTATTTTTTAAAATTAGACTTGTTTTTACATATTTTTTCTCCATTTCTCTACAATGATTTCCATCAACCATTTGAGTTTCTAGCCAAATTTCAAACATTTTTTAAAACTATTTTTTTTAGTTTTCAAAATTTAGCTTAGTTTTTTAACACATAGGGAAAAACCATATAAGAAGACGTAAAAATTCATAGGTAGATATGGTATTTGTAAGCTTAACTTTCAAAAACCAAAAACCAAAAATCAAATGGTTATCAAATCGGGCCTTAGTTTGGACATTTTTCTTATTCAGGGTACAGAATCAGATTCTATATGATGCCTGCGATGGAAATTTTGTATCATTAAATCATAGCTTGCTTTCTTGCTTTCGATGATGGGACGAGGTGACAATGTCACCAAGTTTCATATCTTTCCTCTTTTTTTTATTTTGGCATTTCTGAAGTTCAAAAACTTTTAGCAATGCTTTCATTAGAAAGAATCGACGTCGTAAATAGTTTTCGATTTTTTGTTAATATCTGTAATCTAAATATATACTTGTTCAGATGCCCATTGTTGAATGCAAACAATGATGAATTTGGAAGTTATAGATGCATATTTTCCTTTGCTTTTTATTGAACTTTACTCTAGATTTGAACTTCTGTTTATGTACATTGCCATTTCAATTTTTCTAATATAACAATAATATGTATTTATAGGATTTGAGGAGGCTCGATGAAGTGTATCGATTTTGTCTCATGTCAATAAATGAAATTTAGAAGTTTTAAATTTTGATAAATATGGCGGTTTTAATCATTTGTAACTTGTAAGGTCAATTTTTCAGAGAAAAATTTGAAATATGTATATTATTCTAATTTGATCTTGAGACATTAATTTAAGTCAGTTCCAATGCATGGAATGTTTTTATTTTAAAAAAAACATAAAATGTACACAAAATTTACTTTAACAATAGATTTAC CTTCAAAATCACCCGCGAAGCCGTTGAGAGAATTTCGTTGTGGATAATGTGAGAGATAAGGGGTCGAGCAACACTTCTCTGTTCCTTTCCTTTTCTCTTCAATGGCGACTCTGCAGCAACTCCTCAGACCTTCATGGACATCTCTTTTCGCTTCCTCCTCTCCTCGCCATTCCCTCTCTCAATCTCAAGTTCACCCTCGAAGTGTTAATTCTACTACTCCCAAAGCTTCTCTTCAGAATTCTTCCATCAATCGCCGGCAGTTTGTAGCTGAGACCGCAGCCGCGGTTTCTCTGTCGCTTTCTCCGTTGATTGGCCCCGTACAACCGGCGAAGTCCGAAGAGAATCTGTCGGAGTGGGAGAGACTTTACCTTCCTATCGATCCCGGTGTTGTCCTTCTCGATATTGCTTTTGTGCCCGATGATTTGGACCATGGCTTCCTTTTGGGGACTAGACAAACCATTTTAGAGACAAAAGATGGTGGAAGAACGTGGGCTCCACGTTCAATACCCTCGGCTGAAGAAGAAGATTTTAACTACCGATTTAATGCTATTAGCTTCAAAGGAAAAGAGGGATGGATTGTTGGAAAACCTGCAATTCTGTTGTACACTTCGGATGCTGGGGAAAGCTGGGAAAGGATACCTCTTAGTGCTCAGCTTCCTGGAGATATGGTCTACATTAAAGCAACGGGAGAAAAAAGTGCTGAGATGGTTACTGATGAAGGTGCAATATATGTTACATCAAACAAGGGATATAATTGGAAGGCTGCAGTTCAGGAGACTGTTTCTGCCACTCTTAATAGAACAGTTTCTAGTGGTATAAGTGGTGCAAGCTATTATACTGGAACCTTTAACACAGTAAATCGCTCTCCCGATGGGCGTTATGTAGCTGTTTCAAGTCGTGGTAACTTCTACCTCACCTGGGAGCCTGGGCAGCCATTCTGGCAGCCGCATAATAGAGCTATTGCAAGGAGGATTCAAAACATGGGGTGGAGAGCTGATGGTGGTCTTTGGCTTCTTGTTCGTGGAGGAGGACTTTTTCTTAGTAAAGGGACAGGGATAAGTGAGGATTTTGAAGAAGTTCCAGTTCAAAGCCGAGGTTTTGGCATATTAGATGTCGGTTATCGTTCAAAGGAAGAGGCTTGGGCTGCTGGGGGAAGTGGAGTACTTCTGAAAACTACAAATGGTGGCAAGACATGGACCCGTGATAAAGCAGCTGACAATATTGCGGCTAACCTATACTCTGTAAAGTTTATAAACGATAAGAAAGGCTTTGTGCTCGGAAATGACGGGGTGTTACTTCAATATCTTGGTTGAAATTTGAGATTTTACTTGGATTTGAGGAGGCTCGATGAAGTGTATCGATTTTGTCTCATGTCAATAAATGAAATTTAGAAGTTTTAAATTTTGATAAATATGGCGGTTTTAATCATTTGTAACTTGTAAGGTCAATTTTTCAGAGAAAAATTTGAAATATGTATATTATTCTAATTTGATCTTGAGACATTAATTTAAGTCAGTTCCAATGCATGGAATGTTTTTATTTTAAAAAAAACATAAAATGTACACAAAATTTACTTTAACAATAGATTTAC ATGGCGACTCTGCAGCAACTCCTCAGACCTTCATGGACATCTCTTTTCGCTTCCTCCTCTCCTCGCCATTCCCTCTCTCAATCTCAAGTTCACCCTCGAAGTGTTAATTCTACTACTCCCAAAGCTTCTCTTCAGAATTCTTCCATCAATCGCCGGCAGTTTGTAGCTGAGACCGCAGCCGCGGTTTCTCTGTCGCTTTCTCCGTTGATTGGCCCCGTACAACCGGCGAAGTCCGAAGAGAATCTGTCGGAGTGGGAGAGACTTTACCTTCCTATCGATCCCGGTGTTGTCCTTCTCGATATTGCTTTTGTGCCCGATGATTTGGACCATGGCTTCCTTTTGGGGACTAGACAAACCATTTTAGAGACAAAAGATGGTGGAAGAACGTGGGCTCCACGTTCAATACCCTCGGCTGAAGAAGAAGATTTTAACTACCGATTTAATGCTATTAGCTTCAAAGGAAAAGAGGGATGGATTGTTGGAAAACCTGCAATTCTGTTGTACACTTCGGATGCTGGGGAAAGCTGGGAAAGGATACCTCTTAGTGCTCAGCTTCCTGGAGATATGGTCTACATTAAAGCAACGGGAGAAAAAAGTGCTGAGATGGTTACTGATGAAGGTGCAATATATGTTACATCAAACAAGGGATATAATTGGAAGGCTGCAGTTCAGGAGACTGTTTCTGCCACTCTTAATAGAACAGTTTCTAGTGGTATAAGTGGTGCAAGCTATTATACTGGAACCTTTAACACAGTAAATCGCTCTCCCGATGGGCGTTATGTAGCTGTTTCAAGTCGTGGTAACTTCTACCTCACCTGGGAGCCTGGGCAGCCATTCTGGCAGCCGCATAATAGAGCTATTGCAAGGAGGATTCAAAACATGGGGTGGAGAGCTGATGGTGGTCTTTGGCTTCTTGTTCGTGGAGGAGGACTTTTTCTTAGTAAAGGGACAGGGATAAGTGAGGATTTTGAAGAAGTTCCAGTTCAAAGCCGAGGTTTTGGCATATTAGATGTCGGTTATCGTTCAAAGGAAGAGGCTTGGGCTGCTGGGGGAAGTGGAGTACTTCTGAAAACTACAAATGGTGGCAAGACATGGACCCGTGATAAAGCAGCTGACAATATTGCGGCTAACCTATACTCTGTAAAGTTTATAAACGATAAGAAAGGCTTTGTGCTCGGAAATGACGGGGTGTTACTTCAATATCTTGGTTGA MATLQQLLRPSWTSLFASSSPRHSLSQSQVHPRSVNSTTPKASLQNSSINRRQFVAETAAAVSLSLSPLIGPVQPAKSEENLSEWERLYLPIDPGVVLLDIAFVPDDLDHGFLLGTRQTILETKDGGRTWAPRSIPSAEEEDFNYRFNAISFKGKEGWIVGKPAILLYTSDAGESWERIPLSAQLPGDMVYIKATGEKSAEMVTDEGAIYVTSNKGYNWKAAVQETVSATLNRTVSSGISGASYYTGTFNTVNRSPDGRYVAVSSRGNFYLTWEPGQPFWQPHNRAIARRIQNMGWRADGGLWLLVRGGGLFLSKGTGISEDFEEVPVQSRGFGILDVGYRSKEEAWAAGGSGVLLKTTNGGKTWTRDKAADNIAANLYSVKFINDKKGFVLGNDGVLLQYLG Homology
BLAST of Tan0020192 vs. ExPASy Swiss-Prot
Match: O82660 (Photosystem II stability/assembly factor HCF136, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=HCF136 PE=1 SV=1) HSP 1 Score: 632.1 bits (1629), Expect = 4.3e-180 Identity = 314/411 (76.40%), Postives = 361/411 (87.83%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy Swiss-Prot
Match: Q5Z5A8 (Photosystem II stability/assembly factor HCF136, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=HCF136 PE=3 SV=1) HSP 1 Score: 621.7 bits (1602), Expect = 5.8e-177 Identity = 307/390 (78.72%), Postives = 337/390 (86.41%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy Swiss-Prot
Match: Q9AW48 (Photosystem II stability/assembly factor HCF136, chloroplastic OS=Guillardia theta OX=55529 GN=hcf136 PE=3 SV=1) HSP 1 Score: 352.8 bits (904), Expect = 5.0e-96 Identity = 168/362 (46.41%), Postives = 245/362 (67.68%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy Swiss-Prot
Match: P73069 (Ycf48-like protein OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=slr2034 PE=3 SV=1) HSP 1 Score: 302.4 bits (773), Expect = 7.8e-81 Identity = 155/318 (48.74%), Postives = 202/318 (63.52%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy Swiss-Prot
Match: Q8DI95 (Ycf48-like protein OS=Thermosynechococcus elongatus (strain BP-1) OX=197221 GN=tll1695 PE=1 SV=1) HSP 1 Score: 297.0 bits (759), Expect = 3.3e-79 Identity = 143/320 (44.69%), Postives = 203/320 (63.44%), Query Frame = 0
BLAST of Tan0020192 vs. NCBI nr
Match: XP_022959584.1 (photosystem II stability/assembly factor HCF136, chloroplastic-like [Cucurbita moschata]) HSP 1 Score: 774.6 bits (1999), Expect = 4.1e-220 Identity = 386/406 (95.07%), Postives = 396/406 (97.54%), Query Frame = 0
BLAST of Tan0020192 vs. NCBI nr
Match: KAG7025624.1 (Photosystem II stability/assembly factor, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 774.2 bits (1998), Expect = 5.4e-220 Identity = 386/406 (95.07%), Postives = 396/406 (97.54%), Query Frame = 0
BLAST of Tan0020192 vs. NCBI nr
Match: XP_023004561.1 (photosystem II stability/assembly factor HCF136, chloroplastic-like [Cucurbita maxima]) HSP 1 Score: 772.7 bits (1994), Expect = 1.6e-219 Identity = 385/406 (94.83%), Postives = 396/406 (97.54%), Query Frame = 0
BLAST of Tan0020192 vs. NCBI nr
Match: KAA0058574.1 (photosystem II stability/assembly factor HCF136 [Cucumis melo var. makuwa] >TYK10374.1 photosystem II stability/assembly factor HCF136 [Cucumis melo var. makuwa]) HSP 1 Score: 770.8 bits (1989), Expect = 5.9e-219 Identity = 384/405 (94.81%), Postives = 397/405 (98.02%), Query Frame = 0
BLAST of Tan0020192 vs. NCBI nr
Match: XP_008461367.1 (PREDICTED: photosystem II stability/assembly factor HCF136, chloroplastic [Cucumis melo]) HSP 1 Score: 769.2 bits (1985), Expect = 1.7e-218 Identity = 383/405 (94.57%), Postives = 397/405 (98.02%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy TrEMBL
Match: A0A6J1H8H0 (Photosystem II stability/assembly factor OS=Cucurbita moschata OX=3662 GN=LOC111460613 PE=3 SV=1) HSP 1 Score: 774.6 bits (1999), Expect = 2.0e-220 Identity = 386/406 (95.07%), Postives = 396/406 (97.54%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy TrEMBL
Match: A0A6J1KSF8 (Photosystem II stability/assembly factor OS=Cucurbita maxima OX=3661 GN=LOC111497826 PE=3 SV=1) HSP 1 Score: 772.7 bits (1994), Expect = 7.5e-220 Identity = 385/406 (94.83%), Postives = 396/406 (97.54%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy TrEMBL
Match: A0A5D3CGP8 (Photosystem II stability/assembly factor OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold459G00160 PE=3 SV=1) HSP 1 Score: 770.8 bits (1989), Expect = 2.9e-219 Identity = 384/405 (94.81%), Postives = 397/405 (98.02%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy TrEMBL
Match: A0A1S3CFV0 (Photosystem II stability/assembly factor OS=Cucumis melo OX=3656 GN=LOC103499970 PE=3 SV=1) HSP 1 Score: 769.2 bits (1985), Expect = 8.3e-219 Identity = 383/405 (94.57%), Postives = 397/405 (98.02%), Query Frame = 0
BLAST of Tan0020192 vs. ExPASy TrEMBL
Match: A0A0A0K5Y1 (Photosystem II stability/assembly factor OS=Cucumis sativus OX=3659 GN=Csa_7G420730 PE=3 SV=1) HSP 1 Score: 766.5 bits (1978), Expect = 5.4e-218 Identity = 384/406 (94.58%), Postives = 397/406 (97.78%), Query Frame = 0
BLAST of Tan0020192 vs. TAIR 10
Match: AT5G23120.1 (photosystem II stability/assembly factor, chloroplast (HCF136) ) HSP 1 Score: 632.1 bits (1629), Expect = 3.1e-181 Identity = 314/411 (76.40%), Postives = 361/411 (87.83%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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