HG10002344 (gene) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTTTTGTTTGTTGGTACGACTCTTCCACCCACTTCTATGGCCTATCTTGCCGCTCTCAGAACCCGAGTTCAACTTCCAAGCTCTGCATTTTCTATTACCCGAAAAGGGTTTTCTCCCTTTCAACGGATTGCCCAATCTCGCCTTCAATCCGGTGAGCTACATTTCTCGCTGTTTGCTTTGATGGGTATTCAATTTTGCTGTAAAATCTAATGGCCCTTTTTCTATTTCGTTTCGATTCCTTCACCATCCTCCGTTGTTTGTGTATCTAGTTTATTTTCCGCTTCAACTGTTCTGTGTTTCATGAGTTTTCAAGCTGGGGATGTGGTGGAATGCTCATCAATTTTGCATGGGTCACTATACTCGCGATGCTTTCATGTTTCACATTATTGTTCTAGTTACATCTTACACAGCACGATGGTTTACAAGTTTTCAAGAGGAAAATTGTACGAGATTTTCCTGATTACTTTGTTATGTTGTATTTTGTTAATCAACTGCGAGAACTGAAATTAGGCAAAATGTAGAGGGTTGGTCGTTCATCGTTAACCACCAAACGTGGATACTTCGTGGGCTTGAATATTATGTGTGGTAATTCTTACTTTGTATTTACAGTTTCTGGTGGTGAGATTGGAGAGACGTTATCTGCCAAGGAATCAGAAATCATATTTATAGGTACGGGTACCAGCGAAGGAATCCCACGAGTGAGCTGCCTGACTGATCCTGTAAAGAAATGTCCGGTACGATTTTCAAATTTCTGAGCATGAATTTGCTGATTAATGTCAAAATGTTTAACAGTGGCTTAAATTCCTTCCGAATGAGACGATTGTAACTTGTATGAACTAAGAAGGAAACTAACGGTACCTTCTAGTAGTGGACTTAAGTAGAAAGGTACTGTAGGTTATAGAAACGTAGGTCTGTCACATTTTTGTTTATTTTGTAGGTTTATGATTGTGTAAAGTCAGTGTATAGTATTAATGTTGGGTTTCATAAGTATAGGTTTATGTAATATGAGTATATGTAGACTGTAGCATTGACAAATTTATGAATAGACTATAGACTTGACTTCTTAATTTCAAGTTATTTTGACTAACTCGCGATCTAAACAACCCTCAACAGCATTTTATGATTATTTTATTTTATTTTAGGTATGCTTCAAAGCTGCAGAACCAGGCAATAAAAACAGGAGGCTTAATACCAGCATCCTAGTTCGATATGCTGGACCTTCTGGAAGTCGTAATATTCTTATCGACGTTGGAAAGTTAGTATAATATTACTATATGGTTTTTATTTCTTAGCCTTTATTCTGTACATTAGTGCCTTTCTGGATTTTTTCTGTAATGGGAAATAGGTCAAAATTTATCTTCTGTTGCTATATTTTTCTGACGCCTATTGTGACAATTCTATATCTTTCCTGCAGGTTTTTCTACCACAGCGCTCTCCGATGGTTTCCAGCATTTGGGTTAGTAATTGATCTTTTTTTGCTTAAGTTCAACCTTTTATATAGAGTAAATTCAGGTAGCTACTTGGTTACTCCTAATGTTTGGTTGACTATATTAGATTAGGGGGGTCTAGATGCACTTCTGTTGCTAAGAGCTTTATAACCTATGTTGATTAGTTTATGTTTACTTGTAAAGCTTCACATTCTTTTTGCATGGTTCTCTTGCCACTTCTATTATTTGCTCTGTGCCGTCAGTCCTTTGTACTCTCATGTGGTATATGTCAGTTTCTTTTCTGGGGCAAGTTTTTTGTTTCTTTTGTACTTTCATAATATACTTTTTTTTTTTCCTTTTCTTTTCTTAATAAATAATTTTTGAAAGGGCAAGCTCTAAACTCATGCATCTTGTAAGTCCATGAGTTCAATCTTATCATTTGTTTGTTACAACATAGATAAAGAAAGTGAAGTGGTGCATAGATGCCAAATGAGGATTCCATCTCCTTTCCCTGTGGATGTTTCATTAGAAGATACCAGACAGGAAACCTTCTTTCTTGTGCCATTTCAAACTCTGTTTCATGAGTTTCAATGCAGTAACTATTTGACTGTTGCATTCATTTCCAGTTTTAATTTGTTTGCCCACACCCCTTTTAACACGTTCATTTGACCACATATCCAAGATTTGGCATTTATCAAATTAATATGCTACAATTCAAGTTGTCATCTTGTTTTTATTTTTTAGTATGTCATAATGTTGCCCTCGACATGATCTTATGCCATACTTCTTTTTTTAAGTATGATTTTTGCCTCATCATAACTAGTCACATTTCTGCCAGGATAAGAACAATTGATGCGGTTATTATTACTCATTCTCACGCCGATGCAATTGGAGGTCTCAAACATGAATACCTTGCAAGCTAATCTTACTTTAGATTATAAGAAAAGTTGCAATTCTAGAGTATATTCTTTTACTTCATTTCTTTTACTTCAATCTAATCTTATTTTAGATTATAGGAAAAGATGCAATTGTAAAGTACGTAGTTTACTTCATTCCGTCATTTCTATATAGCCTTCAAACTAATCATTGAACACTGTTTCTTTCTCTTTCTTTCCTTTTTTGCCTTTTCATTATCAGGTCTCGATGATCTTCGAGATTGGACAAATAATGTCCAGCCTTCCGTTCCAATTTATGTGGCTCAACGTGATTTTGAGGTTCCAACCTTTTACAGTTCAATTTCATATTTATTTTCTTCATATATCCATATTCCAAGGCATTTCATTTTTTTAGGCTAAATTATAACCTTGACATTTTCCCTTGTTTCAAAGATACCCTTATTCCTTCAAAAGTTCAATATTATCCTTGACCTTTTATAAACGTTTCAAAACTACAAAATCTTTTATAATATTGGACAAAATTGGGACTTGGAATGATGTAAATGTGACTTAGAATGGAAATTTGGATCGCTACACCTTTCTCTAGTCTTCGTCACACTATTCCACGACCCAATTTTCATCCAACATTCTAATGGGTTTCTACTCTAGAGAGGTAGTTAAGCATTTATAAAAAGTCAAGGGTAATATTGTAAATTTTTTAAAGAATGAGGGTATTTTTGAAACAAATGTCAAAGTTCAGGTATTGTTTATAATTTAACCCTTTTTAAAAAAAAAGATTATTTATTTGATATTTGACACATAGTGAAATAATTTTAGGTGATGCAGAAGACTCACTATTATTTGGTAGACACAAGTGTAATTTTACCTGGTGCTGCAGTTTCAGAGTTGCAGTTCAATATCATACCTGAGGAGCCTTTTGTAGTCAACGATCTGAAGGTAGGGATTTTAATTTTGAACGGATTTGTTTTCTAAGCCTCCAAATTTTTAATGGAATCTAATTTTATCGTCAGCTTGATTGCATGCAGTGTTCAATTAATGAAAGAAGAAATTTTCCTAATAACATTTCCGTTTTATTTTATTATTATTTTTTTATTATTGAAAACAAAACTTTTCATTAAAAAAATGAAAAGAGATTAATGCTAAAAAATATATTAACCTTCAAGAGATGAGAGAAACTGGAGAAAATAAAAGAAGACAACAATACAATGGAAAGGAAACACCAAAACTGCAAACTCTAAAACCTAACAAACCAACTCTAGAAAAGAAACCCAAAGCCATTGAACACCCAAACTTTAAAGCCAAAGCCAATTGAAGACCATTAAGCAGTTGAGGGAGGAAGTCCTTGAAGACCAAAAGTGAGAGTTTCAAACCACAAAACAATCCAACTTTTAAACTTCCGCTTCAAAGATTTCAACTGCTAGGAAAAATTACACAACTTCTTTAAAGCAAAACAGTAAGGCTTTGTCTCAGGATCACAAGAATTCCACAATATTATTTCTAGTCCTAGACCAAACCACCTAGCTAGACTTTAACGGAAGGAGAATGAGGTAGAATTGATTTCAACTGCAAACCACATTTTTCAATCAAAACAGAGAATTTGGTAGGGGATTATAGGTGACTTTTCTGCTTGAATATCTTCACCATTCTGAAACAAGGTATCAAAACCTTATGCGAAGTTAACCTCTGAATTCTCCTCAACAAAATCTACTTGTGCCTGAGAGTCCATAATATCTCCACTGCTTACACTAACCGCAAAATCGTAAATAGAAAGATTGTCTTTAGGAGGGGGATGGTTATAGACTCCTTTAACAAAAGAAATATTTGATCCCGAGATATTAATGACTGATTGGCTGAACTTCGTACAAGGAGGCTAAAGATGTAGATTGTCTACTGGTTGTGAATATGCTATTAAGAGACATGCACAAGACTCCTCAAGAGCATATGAATTGAACTCCAAATGTTCCTTTGCAGATGATTGCTTCTTTTATTTTCTGGCTATAAAAAAGAGGATAAATTGGCAAGGGAGATTTTTTAATGTTCACATCCTCTTTACCATTTTTTAAGTCAACAGATTGTGGAGTGCTAACAGAGACTTCCAAAGGACAATTATGACTCCCTATGGGAAGCGGATCCACCTCATTCAGAGTTGAAATGAAACGGGTTTCCTTGTCTGACTGAATTGGAACATAATCTTCAACAAAATTAGATACCTCAAACACATCTTCATCTTGCCTAGCTTCAATTAATCTTGCAATATCCAAAGAGTTTGAAAAATCTTTGAAAAATAACGTACCTTGAAGGATGTTTGGAGCGTCTAACAGAGAAATATCACCAAATCTAAGATGAAAATTTCTATTAGTTTGATCTTTAATTTCAAATTTAGTTAGGAGAAGTCCACACAAATTTCTTTTAACCTCAATACGGGCTTTAGAGCAATCCAAGAAATTTAGGGTTTGAGAAGAAATACTAACCATACCCCCAAAGTTTTCCCTAATGGCTTCAAATGTAGGACGTATTCGAAAAGGCAAAGATTTTTATTTTTTTATTTTATTTTATTTTAATTTAAATAAATTTTAATTGAAAGCAACCTCCATAACTCACAATAAATTTTGGATGAGAATGTACTTTGTAAGACTAATTTTCTACTTTCAAATGCAAGTTACCAATTTCCCTCCATTTTCCATCGAAGTCCATATCAACAAAACTATCATCAAGTTTTATCAATGCCTTATCAACCATAAAGGATTGATTAAAACGTTAGACTAAAAATAATCTTCCAAAACGAGGTGATATCCTTCCAAGAATAGTAGGCGAACAATCTAGAAACAACAAACAGATTGTTGAAGTTCATATCGTATCCAACACTTCCCTATCTTTCCTAACCCAAAAAGAGGAATCAATGTCAGATGGATTACTATACTACTTGAAATTTATTAAAAGCCCGTTGAGAAACGTCCTAAAAGTTTCTAGGCACCTTCAAATCATCTGAGAAAGTTGAAGCTAAAGACTCACCCGATCCAATCTCACCAACCCCGAACCAAGGGGAGGACAACAAACATGACTCCGCTTTGCCCATAAAATCTCTAATCATCTCCCAAAAACCATTCATCCTTTCTTCAGGATACAAGTTGGAACATGCAAAAATTTCCTACCACCAGTAGAGGGCCAAATAGCACATTCAAAACATCTTTCATTGAATGATATAAACTCAGCCAAATGAATGAATCCAGAGTTGTATCGATTTTTGCTGGAGAAGAACACATGAATTGGGCCCTGTAACAACTCAACCAAGAATAGTTCAAACCAACACAAATGAGAGATGGAAAGGGAGATCTTCTGATTATTACTTGAGTCCTCAATAATAAACATGGTTTTCTCACACTTTATCCAAAAATAAGAGTTGCGAATACAACTCCATCGCCTCCAATGAGTTCAAAAGACATCTTGAATGGAGAAGACTGAAGAGATGACCAACTATAAGAAAGAAGTTCAAAAACCTACTCAAGAAAAGCAAAAACAACTAGAGGAGACAATCAGCACGTTAGAGACAACGGTCAATGACCGGAGAAAGGAGGAGACGACGGAGAGGCGGCGAAAGGCAACAACGGATGGAAGAGAGGTTAAAAGAACAGAGGCTTGGTGAGAGATGAGGAGAAAGAAGCAAAAAAAAAAAAAAAAGGTGGGTTGGGACGGGGAAACTCGAATGGCCAGCGTCAAAGGAGATCAGCAACAAGAATGAAGGGGAGAGGAGGACAGAAACGACTCCGACAGACTGCAGAACTGCAACTTGCGATAGACACGAGGGAAGCAAAGAGAGAACAAGAGTTTTGGGAAACGAACAAAGGAGGAGGCCGCTGATGAAGGAGAAGGTTTCGGTGAAGGACGGAGGAGTAGTTTTCAGCGAGACAAGCGACTTCGACTGCTGGCAATGCAGTCAATGGACGAAAGCGGCTAGGGTATTGGTGGGTTAGGGAGGCGGTGAGTGAGAAAGGACATTGCGGTTCGTTTTATTCTTGATTTTGGGTGATAACTGATAATCTTTTTTTATTTCTCTTCTAATGAACCTGGCAGTAAAACCATACGGGTTTATGATTTGGGATGATTTGCCAAATCTCTAGAACTGTATTTAGTCGTTCATCTGAAGAAGTGATGATAGTTTCGGGTTTCAGTCTTCATAAAAATGAAAGTTGAATATGGATATCTGAGTTACAGTCTAGAGTTTTCAATTTAGGATATATGAATCTTAGGGTGTAACTTAGTCAATTCATGTTCGTTTTTTACCACACTTGACACCTAATTGACATTGACTTGAGGAAAATAAATGCTAAACTGAAACTTAATCATTGAACAAAAGAACCGACTAAATTGACCGCCAAGTTGAACTGAACCCTACCAAAAACCACCAAAATCTTTCTAAACTGAACAAAGTATTGTTTTTTGATTTATACTTTAAGAGACTGAAGTTTCCGATGACTATATTTCTAAGTGATTGAACCAACGGCCTCATCCATTTCAAGTTGTAGTGAAGCAAAGAAGGAAAGAGGATGCAATTTTTTTAGCAATTCTTTCCAGTTTTATTAATGGTGCAACCACATATGTAAATTATTTAAGCATGCTGACAGTCCTGCGTTGTTCTTTATCAATCAAATTTTATATGTTGCCAAATAGTTTATTGCACAATGAAAGGAACAATAGTTTAGTTATGAGAAGTGGTTACTGGATGCTTTCAAAGTAATGCTTGTTGATCTGAAATGCCACTTTTAAGTATTTCTGATTGCTTTTTATTCATTTTTTTTCTTTCTTTTTCAGGTTACACCCTTACCAGTTTGGCACGGTCGTGGCTATCGTTCATTGGGTTTTCGATTTGGGAATGTTTGTTACATTAGGTAAGTAAGTAAAATATGCTTCTCCATCTCAAGACATCTCAGCATTAAATCAGCTTAGTATTCACAAATCCTTGTCTGCTTTTCTGGACAGTGATGTTAGTGAAATACCTGAAGAAACTTATCCACTGTTGAAAGATTGTGAAATTCTCATACTGGTATCTCTCTCGTTTTTTTCCTTCTTCCATTAGAAACGAACATACAGCTGAACTGAACATAAGATAATAGTTGTGGTTTGGTTGACTTTCAGGATGCGTTACGGCCTGATCGATCTTCTTCCACCCACTTTGGGCTTCCAAGAGTAATTCTTCACATTCATTCTATATTTCTTAAGCATAAACCAAAGAAATGAAAGGAAAGAGAATTAACGTTTCTTCTTCTTCTCTTCCTTTCAGGCTTTAGAGGAAGTAAGGAAAATACAACCAAAGAGAACTCTATTCACTGGTATTTCTACCCCCACTTTTAAATCTCTTGTTTTTTGAACCTTTATCGATTGAATTCATTACTTTTATCTCTGTTTTAACATTATTATTGGTTTACAGTCTTTTGTTTGTACTTAACTAAATTCATTACTAAATTTGTGATGGGAAGTGAACTATTTGATATGAAGGTATGATGCATTTAATGGATCACGAAGAAGTAAACAGTTATCTGTTGAAACTGAATGTGAGTGAAGGTGTTGATGCTCAACTAAGCTACGATGGGCTTCGAATACCAGTAACTCTCTAAATGGTTTTGTTTGTTGGTACGACTCTTCCACCCACTTCTATGGCCTATCTTGCCGCTCTCAGAACCCGAGTTCAACTTCCAAGCTCTGCATTTTCTATTACCCGAAAAGGGTTTTCTCCCTTTCAACGGATTGCCCAATCTCGCCTTCAATCCGGTGAGCTACATTTCTCGCTGTTTGCTTTGATGGTTTCTGGTGGTGAGATTGGAGAGACGTTATCTGCCAAGGAATCAGAAATCATATTTATAGGTACGGGTACCAGCGAAGGAATCCCACGAGTGAGCTGCCTGACTGATCCTGTAAAGAAATGTCCGGTATGCTTCAAAGCTGCAGAACCAGGCAATAAAAACAGGAGGCTTAATACCAGCATCCTAGTTCGATATGCTGGACCTTCTGGAAGTCGTAATATTCTTATCGACGTTGGAAAGTTTTTCTACCACAGCGCTCTCCGATGGTTTCCAGCATTTGGGATAAGAACAATTGATGCGGTTATTATTACTCATTCTCACGCCGATGCAATTGGAGGTCTCGATGATCTTCGAGATTGGACAAATAATGTCCAGCCTTCCGTTCCAATTTATGTGGCTCAACGTGATTTTGAGGTGATGCAGAAGACTCACTATTATTTGGTAGACACAAGTGTAATTTTACCTGGTGCTGCAGTTTCAGAGTTGCAGTTCAATATCATACCTGAGGAGCCTTTTGTAGTCAACGATCTGAAGGTTACACCCTTACCAGTTTGGCACGGTCGTGGCTATCGTTCATTGGGTTTTCGATTTGGGAATGTTTGTTACATTAGTGATGTTAGTGAAATACCTGAAGAAACTTATCCACTGTTGAAAGATTGTGAAATTCTCATACTGGATGCGTTACGGCCTGATCGATCTTCTTCCACCCACTTTGGGCTTCCAAGAGCTTTAGAGGAAGTAAGGAAAATACAACCAAAGAGAACTCTATTCACTGGTATGATGCATTTAATGGATCACGAAGAAGTAAACAGTTATCTGTTGAAACTGAATGTGAGTGAAGGTGTTGATGCTCAACTAAGCTACGATGGGCTTCGAATACCAGTAACTCTCTAA ATGGTTTTGTTTGTTGGTACGACTCTTCCACCCACTTCTATGGCCTATCTTGCCGCTCTCAGAACCCGAGTTCAACTTCCAAGCTCTGCATTTTCTATTACCCGAAAAGGGTTTTCTCCCTTTCAACGGATTGCCCAATCTCGCCTTCAATCCGGTGAGCTACATTTCTCGCTGTTTGCTTTGATGGTTTCTGGTGGTGAGATTGGAGAGACGTTATCTGCCAAGGAATCAGAAATCATATTTATAGGTACGGGTACCAGCGAAGGAATCCCACGAGTGAGCTGCCTGACTGATCCTGTAAAGAAATGTCCGGTATGCTTCAAAGCTGCAGAACCAGGCAATAAAAACAGGAGGCTTAATACCAGCATCCTAGTTCGATATGCTGGACCTTCTGGAAGTCGTAATATTCTTATCGACGTTGGAAAGTTTTTCTACCACAGCGCTCTCCGATGGTTTCCAGCATTTGGGATAAGAACAATTGATGCGGTTATTATTACTCATTCTCACGCCGATGCAATTGGAGGTCTCGATGATCTTCGAGATTGGACAAATAATGTCCAGCCTTCCGTTCCAATTTATGTGGCTCAACGTGATTTTGAGGTGATGCAGAAGACTCACTATTATTTGGTAGACACAAGTGTAATTTTACCTGGTGCTGCAGTTTCAGAGTTGCAGTTCAATATCATACCTGAGGAGCCTTTTGTAGTCAACGATCTGAAGGTTACACCCTTACCAGTTTGGCACGGTCGTGGCTATCGTTCATTGGGTTTTCGATTTGGGAATGTTTGTTACATTAGTGATGTTAGTGAAATACCTGAAGAAACTTATCCACTGTTGAAAGATTGTGAAATTCTCATACTGGATGCGTTACGGCCTGATCGATCTTCTTCCACCCACTTTGGGCTTCCAAGAGCTTTAGAGGAAGTAAGGAAAATACAACCAAAGAGAACTCTATTCACTGGTATGATGCATTTAATGGATCACGAAGAAGTAAACAGTTATCTGTTGAAACTGAATGTGAGTGAAGGTGTTGATGCTCAACTAAGCTACGATGGGCTTCGAATACCAGTAACTCTCTAA MVLFVGTTLPPTSMAYLAALRTRVQLPSSAFSITRKGFSPFQRIAQSRLQSGELHFSLFALMVSGGEIGETLSAKESEIIFIGTGTSEGIPRVSCLTDPVKKCPVCFKAAEPGNKNRRLNTSILVRYAGPSGSRNILIDVGKFFYHSALRWFPAFGIRTIDAVIITHSHADAIGGLDDLRDWTNNVQPSVPIYVAQRDFEVMQKTHYYLVDTSVILPGAAVSELQFNIIPEEPFVVNDLKVTPLPVWHGRGYRSLGFRFGNVCYISDVSEIPEETYPLLKDCEILILDALRPDRSSSTHFGLPRALEEVRKIQPKRTLFTGMMHLMDHEEVNSYLLKLNVSEGVDAQLSYDGLRIPVTL Homology
BLAST of HG10002344 vs. NCBI nr
Match: KAA0036687.1 (putative hydrolase [Cucumis melo var. makuwa] >TYK03661.1 putative hydrolase [Cucumis melo var. makuwa]) HSP 1 Score: 693.0 bits (1787), Expect = 1.4e-195 Identity = 342/359 (95.26%), Postives = 349/359 (97.21%), Query Frame = 0
BLAST of HG10002344 vs. NCBI nr
Match: XP_038905401.1 (putative hydrolase C777.06c isoform X4 [Benincasa hispida]) HSP 1 Score: 674.1 bits (1738), Expect = 6.7e-190 Identity = 336/359 (93.59%), Postives = 340/359 (94.71%), Query Frame = 0
BLAST of HG10002344 vs. NCBI nr
Match: XP_038905375.1 (putative hydrolase C777.06c isoform X1 [Benincasa hispida]) HSP 1 Score: 670.6 bits (1729), Expect = 7.4e-189 Identity = 334/357 (93.56%), Postives = 338/357 (94.68%), Query Frame = 0
BLAST of HG10002344 vs. NCBI nr
Match: XP_038905393.1 (putative hydrolase C777.06c isoform X3 [Benincasa hispida]) HSP 1 Score: 670.2 bits (1728), Expect = 9.7e-189 Identity = 334/358 (93.30%), Postives = 338/358 (94.41%), Query Frame = 0
BLAST of HG10002344 vs. NCBI nr
Match: XP_038905384.1 (putative hydrolase C777.06c isoform X2 [Benincasa hispida]) HSP 1 Score: 669.8 bits (1727), Expect = 1.3e-188 Identity = 334/359 (93.04%), Postives = 338/359 (94.15%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy Swiss-Prot
Match: O74545 (Putative hydrolase C777.06c OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=SPCC777.06c PE=4 SV=1) HSP 1 Score: 210.7 bits (535), Expect = 2.8e-53 Identity = 119/294 (40.48%), Postives = 174/294 (59.18%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy Swiss-Prot
Match: Q7MUY1 (Octanoyltransferase OS=Porphyromonas gingivalis (strain ATCC BAA-308 / W83) OX=242619 GN=lipB PE=3 SV=1) HSP 1 Score: 119.0 bits (297), Expect = 1.1e-25 Identity = 82/282 (29.08%), Postives = 141/282 (50.00%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy Swiss-Prot
Match: Q95Q18 (Beta-lactamase-like protein 2 homolog OS=Caenorhabditis elegans OX=6239 GN=Y53F4B.39 PE=3 SV=1) HSP 1 Score: 48.1 bits (113), Expect = 2.4e-04 Identity = 31/95 (32.63%), Postives = 53/95 (55.79%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy TrEMBL
Match: A0A5D3BVB8 (Putative hydrolase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold863G00150 PE=4 SV=1) HSP 1 Score: 693.0 bits (1787), Expect = 6.8e-196 Identity = 342/359 (95.26%), Postives = 349/359 (97.21%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy TrEMBL
Match: A0A1S3BIJ3 (putative hydrolase C777.06c OS=Cucumis melo OX=3656 GN=LOC103490046 PE=4 SV=1) HSP 1 Score: 666.4 bits (1718), Expect = 6.8e-188 Identity = 333/359 (92.76%), Postives = 339/359 (94.43%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy TrEMBL
Match: A0A6J1GUY3 (putative hydrolase C777.06c OS=Cucurbita moschata OX=3662 GN=LOC111457413 PE=4 SV=1) HSP 1 Score: 643.7 bits (1659), Expect = 4.7e-181 Identity = 317/359 (88.30%), Postives = 333/359 (92.76%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy TrEMBL
Match: A0A6J1IZZ0 (putative hydrolase C777.06c OS=Cucurbita maxima OX=3661 GN=LOC111479963 PE=4 SV=1) HSP 1 Score: 637.5 bits (1643), Expect = 3.4e-179 Identity = 315/359 (87.74%), Postives = 330/359 (91.92%), Query Frame = 0
BLAST of HG10002344 vs. ExPASy TrEMBL
Match: A0A6J1D3Q7 (putative hydrolase C777.06c OS=Momordica charantia OX=3673 GN=LOC111016985 PE=4 SV=1) HSP 1 Score: 635.2 bits (1637), Expect = 1.7e-178 Identity = 321/362 (88.67%), Postives = 332/362 (91.71%), Query Frame = 0
BLAST of HG10002344 vs. TAIR 10
Match: AT3G13800.1 (Metallo-hydrolase/oxidoreductase superfamily protein ) HSP 1 Score: 503.1 bits (1294), Expect = 1.9e-142 Identity = 239/322 (74.22%), Postives = 275/322 (85.40%), Query Frame = 0
BLAST of HG10002344 vs. TAIR 10
Match: AT3G13800.2 (Metallo-hydrolase/oxidoreductase superfamily protein ) HSP 1 Score: 488.8 bits (1257), Expect = 3.7e-138 Identity = 226/279 (81.00%), Postives = 255/279 (91.40%), Query Frame = 0
BLAST of HG10002344 vs. TAIR 10
Match: AT1G30300.1 (Metallo-hydrolase/oxidoreductase superfamily protein ) HSP 1 Score: 202.6 bits (514), Expect = 5.3e-52 Identity = 120/312 (38.46%), Postives = 166/312 (53.21%), Query Frame = 0
BLAST of HG10002344 vs. TAIR 10
Match: AT4G03610.1 (Metallo-hydrolase/oxidoreductase superfamily protein ) HSP 1 Score: 171.4 bits (433), Expect = 1.3e-42 Identity = 116/310 (37.42%), Postives = 159/310 (51.29%), Query Frame = 0
BLAST of HG10002344 vs. TAIR 10
Match: AT4G03610.2 (Metallo-hydrolase/oxidoreductase superfamily protein ) HSP 1 Score: 157.5 bits (397), Expect = 2.0e-38 Identity = 105/272 (38.60%), Postives = 142/272 (52.21%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01
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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