Tan0004013 (gene) Snake gourd v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATTGAAAATATCTAAAGTTACTTCGTTTAGGTAGGTTATAGATAGTCATTTCATAGTTACCCCTCTTGTCTTTGGATTACCCCTTTGCCTTTGTAAACTATTTTTGACTCTTTTCTGGTACCAATGGACAATTACTGGCCGCCAAAAACTTCAATTGAAAATCTCAACAAAAAAAGGATTTTAAGAAGATCCAAATCCAAATCGAAGCGCAATAGATTTCAATCTCATCTTATCAACAAATTATTAAAAAGTGTTCGTGATTTGAAGTGCTCGAAATATTCTTATACAGCGCTGCAGTTCGATTTCGAATAGTTTCAAACTTTCCCAACTTGGCTATGAGAAGGAAGCTTCGTCGAAAGTCGACAACCCGAAGAACAGGTCCCGCTTAATCCTTTCTGTCAATCTGGCATTTCATATTAGGGAAAATCCACGTGGGTGTTGAATTTTTGCTGTGATTTCATGTTTCGTAATCTACGACGTGGTGGTTGAATGGCCTTTGACAAGGCCGTGAAGGTAGATTTCGAGTTGGTAATTCGTCTTTTCGATTGTTTTTGTTTTTCAATTTTTCTGATGTGGGTTTTCTTGTTGATGTTTTGGGGATAGGGTTTTCGAGTCTTTTCAAGAGGTAAGTCTGTTTGATTTCTGATTCAATTGTGAATTTCGTTTCTTTTGTTCTTCTGGTTGATTTAGTGGATTTCAATCTGCGATTCTTCTTATTTCGTGATTCCATGGATTCCCTTTTGTTACTTTTGAACATGGTTCTTATGGGTCGTGGAATCTTGCTTTATTCAAGATAGGGGCAAGTTATTTTTGCTACTTTTTCATTGGTTTATGTCTCTCATGGCATTTCTGTTTAGATCTAAGTGGAGTTACTGTTTTTATTTTAAGCAATTATGCTGTCAAAATTGACGGGGGAAACTAGAACAGTTTGGTTGAATTTGGTTTGATGGGGTTGTTGATCTGTGGCATTTGAAATTTCAGAACAAATACATGGAGCTTGCTAATCTAGAGCCTGTTGCTAATGGAGAATTGGATGAAATGGAGAGGGAACCTTCAGCACGCCTTCTTTTGCGGGAGGCTGGTCTGTCCCGTACGCATTTTCCGGGCATGGTGAGGAAGAGAGCTTATATATTTGATGGAAATGGCAACTACTATAATAAGGAATGGGATCTTACTGAGGGTAGAGGAAAGGAGTTCTGTTGGTATCATGTAGAACTTCCAAAAGGCAATCAAAAACTGGCCCTATCTGCTCAGTATCTCATCGATGTTCTTTGCCCGCCATTGAAACTTCAAGATATTCTCTCTCTCGTAAGCAATGGACCCTTTTGTGGACATGTCGATGGGGCTCTTGTCTTCAGAGTCAATTCACCTGGCCCTGCATCTAGTGATTTTACATTCAGAATTGCTGCTAGAATTACCGAGCATTCTGTTATCACCGTGTCATTGGGCCGTGTTCCAAGATTAGGGTTCTCACCAGTTGGTCAGTCTCTTCTCTCGGAGGTTCCTAGTGTGGAGAGCCCCTCTCACTTTAGAGGTGAGCCGAGAGAAAGTGGGAGCATTGTGATTAGGGAGCATGTTCTTGAATTTTTGTTGACAATGAATCACTCGGAGGAGGCCGATAATCCCGTGCCAGCGTCTCTCTCAAATCTGGTTGTTCATATTATTGATACACATATGGATCACCTTCAAGATGTCGTTACTAAGCTTGAGATTGAGTTGGATTCTGTGGAGCTTGAAATGGATAGAGGTATTTATAGTTCTTTCTTTTTCTCTCCCCCCAATACATATGGAGATACAGTTGTAATTGCAAGAGCATAAAATAATTGCTCTTATAGATATAGAATTATTGGCTTGATGAAATATTTTTGTCAAGAGGTTAATGTGTAGTTGTGTCAATGTTCCATTCTGAGTACTATAAGCTACAAGAGCAATAGTTAATCAGTTTTAAAGTGCAAGTAGATTTGACACATTTTCATACATAAGGAAGACAATTGTAGGATAAGGAATGGTTCCTTTCAAGATGGATAATGGGTTTTAGTTAATCAGTTTTCATGTTCGCACTCATTTGGTTTTTTTAATCAAGAGGCACTGATCATATCCATTCAATACATATACTGTGCATCTTTGTATATCATGTGGTTGATTTGGAACTTCCCGAATCAAAGATTTGAAAGAGGAAAACGGGAGAGTCAAAAATTGCAGTATTTATCTATTGTCTTGAACTTTAATTTTTCCATAAGCTTTCACTGAAAGTATGTGTCGTCTTGTTGGACTTTTCTGTATGTAATAATAGAAGTCTATTCTCGTGCTGTTGTTAGGTGGATTTGCTTTAAAGAAACAAATGCTCGATGACCGAAGATTCCCTAAAATGAACCTCAATCTGCAGCGGCTCCTGCAGGTAGTTTCTCGATTCATATTCTTATTACTCTCCTGTTTTCCTAGACTAGGGCAAACCGGAACTTTTACTTCTAAAAAATTTCTGTACGTCTCTAAACTTTCAAAGTCTTCTCTATTTAGTTCCTCTATGTCAAAAAGATTCTAATATGTCTTTAAAATTGAAATTGTGTCTAATAGGTCCATCTTGTTAATTCATAAGTTCAACACTTGTTTCGCAAAATCAGCTCACCATATAACCTTCAAATAAAACAAGCTTATCAGGTAAGCATTAATCTGACAAAGTTAACAACCAAGACCTACTAGACACAAAATTGAAAATTCATAAGCATATTAGAAACTTTTTAAAATGTGAGAACCATATAGACCACAACCTTGAAAGTCCAAGAAGCTTTTTTGAAGCACAAAGACTAATTAGATACAATCTTGCAAGTTCATGGACTAAACTTGTAAAAAATCACGACAAGGTCATGAGAGTTTTGAAAAAATTGATTAGACGAGGAGCATTGAAAGTTATTGGAGGCTCTTGATTCAAAAGGGTGAGGATCAAACTCTTTGGTACTTGTTCCACAACGGTCTGTGGATGTCAGATCAAATATTCTCCATAAATGACCTTATGTGTCTACCAACCATAACCTGACTGTTAGAAAACAAAGTCTCTGTTGCCATATCATAGAGAACGAATTTTTGTATAAATAGAAAATGGATTGAACCATATGCTTGAAGCATGATCTAGGAAATACAGAATGCAGCCACTGTGCATGGAAGATGATGTTTGGACGTATTGGTATCTCATGCGATTGGTTTTCACACTTATTAATCTACCCTTATGTACTCGTCTTTCTGTATGTATTTTGTTTGGGCGCAGGTGATTGCACATGGGGAACAAGTCTTTCCACGAGTGAAAGAGAAATGTTCTTCTAAACATTGGTTTGCCAGTGAAGAAATCAGCTCACTCGAGGAATTAATTGGACGTTTAAGACGGTTGAAAGAGAATGTGGGATTTATCGCGAACCGTGTCACTGCTATTCAGGCCGGTCTCGATAGTTGGCAAGCCGAGCAAATTAACAGGAAACTCTATTATCTATCGTTTCTTTCAATCATATTCTTACCTTTATCTGTCATTACCGGAGGTAACAAACTCTTTTGAAGAGCAGTTTTTAATTTCAGTTTTCACCATGATCTGTTTGAAGAAACTCATCCAAGTGTTTTGGAACCGCCCTTGCAGTATTTGGCATGAACGTCGGTGGAGTGCCATGGACCGAGCAGAGAAATCCAGAGTTGAAAGAGGGGTTTCGTAACGTCATGTTTCTCTGTGTCATAATGCTACTTGTGGTCTTGCTCTGCTTCAGTTTCCCAGCTCTGTATGCCTACTTAGCGACGTGGCATCGGCGGAGGAAGATGAGAAAGAGCTGGTCTCTCAACAGAAAGTCTTTTCTGAAGAGAACTGTGAGAAATGGGGCTGAAGACAGGGGAGGAGGTTATCTTCGGATCTGATGATAAGCCATCCTTTTCATCTGCTGCTAGTTTTGTTCCAATCACAAAACAAACATGCCTTTTGCGAACCCAGCATCTCGGTCTCGATCTCGATCTCGAATGATTTGTAAGTTAAACCATTGAACTTACCCGTATGCCTGCCAAATCCTGATTAGTCGATAACCATTGAACGAAAAATCGTACATTATACTACTGTATCATCCTCCCATTCTCTGGGAGACTTTACTTGAAAGAACTTGGTTGCAGTTTGTTTCAAGTTAATGAGGTTAGCCAGTTTTATCCTAACAGGTTTTTTTTTCCCTTTCACATTTGTAAGCTCTTGAGATGTACAGTTTCTTTTATTCTTTTCTTCTTTTCTCACCCTGAGAGATTTGTATGGAAACATTGTTGTGCATTGTTGATTTTAGGCAGCATCAATGCTTTAATCAGTTGCTCATCACCTAGACTGCTGTATTTGTTAACATTCATCAATGATATATTGTAACTGTTAGCAACCTTTTTTTTTAAA ATTGAAAATATCTAAAGTTACTTCGTTTAGGTAGGTTATAGATAGTCATTTCATAGTTACCCCTCTTGTCTTTGGATTACCCCTTTGCCTTTGTAAACTATTTTTGACTCTTTTCTGGTACCAATGGACAATTACTGGCCGCCAAAAACTTCAATTGAAAATCTCAACAAAAAAAGGATTTTAAGAAGATCCAAATCCAAATCGAAGCGCAATAGATTTCAATCTCATCTTATCAACAAATTATTAAAAAGTGTTCGTGATTTGAAGTGCTCGAAATATTCTTATACAGCGCTGCAGTTCGATTTCGAATAGTTTCAAACTTTCCCAACTTGGCTATGAGAAGGAAGCTTCGTCGAAAGTCGACAACCCGAAGAACAGGTCCCGCTTAATCCTTTCTGTCAATCTGGCATTTCATATTAGGGAAAATCCACGTGGGTGTTGAATTTTTGCTGTGATTTCATGTTTCGTAATCTACGACGTGGTGGTTGAATGGCCTTTGACAAGGCCGTGAAGAACAAATACATGGAGCTTGCTAATCTAGAGCCTGTTGCTAATGGAGAATTGGATGAAATGGAGAGGGAACCTTCAGCACGCCTTCTTTTGCGGGAGGCTGGTCTGTCCCGTACGCATTTTCCGGGCATGGTGAGGAAGAGAGCTTATATATTTGATGGAAATGGCAACTACTATAATAAGGAATGGGATCTTACTGAGGGTAGAGGAAAGGAGTTCTGTTGGTATCATGTAGAACTTCCAAAAGGCAATCAAAAACTGGCCCTATCTGCTCAGTATCTCATCGATGTTCTTTGCCCGCCATTGAAACTTCAAGATATTCTCTCTCTCGTAAGCAATGGACCCTTTTGTGGACATGTCGATGGGGCTCTTGTCTTCAGAGTCAATTCACCTGGCCCTGCATCTAGTGATTTTACATTCAGAATTGCTGCTAGAATTACCGAGCATTCTGTTATCACCGTGTCATTGGGCCGTGTTCCAAGATTAGGGTTCTCACCAGTTGGTCAGTCTCTTCTCTCGGAGGTTCCTAGTGTGGAGAGCCCCTCTCACTTTAGAGGTGAGCCGAGAGAAAGTGGGAGCATTGTGATTAGGGAGCATGTTCTTGAATTTTTGTTGACAATGAATCACTCGGAGGAGGCCGATAATCCCGTGCCAGCGTCTCTCTCAAATCTGGTTGTTCATATTATTGATACACATATGGATCACCTTCAAGATGTCGTTACTAAGCTTGAGATTGAGTTGGATTCTGTGGAGCTTGAAATGGATAGAGGTGGATTTGCTTTAAAGAAACAAATGCTCGATGACCGAAGATTCCCTAAAATGAACCTCAATCTGCAGCGGCTCCTGCAGGTGATTGCACATGGGGAACAAGTCTTTCCACGAGTGAAAGAGAAATGTTCTTCTAAACATTGGTTTGCCAGTGAAGAAATCAGCTCACTCGAGGAATTAATTGGACGTTTAAGACGGTTGAAAGAGAATGTGGGATTTATCGCGAACCGTGTCACTGCTATTCAGGCCGGTCTCGATAGTTGGCAAGCCGAGCAAATTAACAGGAAACTCTATTATCTATCGTTTCTTTCAATCATATTCTTACCTTTATCTGTCATTACCGGAGTATTTGGCATGAACGTCGGTGGAGTGCCATGGACCGAGCAGAGAAATCCAGAGTTGAAAGAGGGGTTTCGTAACGTCATGTTTCTCTGTGTCATAATGCTACTTGTGGTCTTGCTCTGCTTCAGTTTCCCAGCTCTGTATGCCTACTTAGCGACGTGGCATCGGCGGAGGAAGATGAGAAAGAGCTGGTCTCTCAACAGAAAGTCTTTTCTGAAGAGAACTGTGAGAAATGGGGCTGAAGACAGGGGAGGAGGTTATCTTCGGATCTGATGATAAGCCATCCTTTTCATCTGCTGCTAGTTTTGTTCCAATCACAAAACAAACATGCCTTTTGCGAACCCAGCATCTCGGTCTCGATCTCGATCTCGAATGATTTGTAAGTTAAACCATTGAACTTACCCGTATGCCTGCCAAATCCTGATTAGTCGATAACCATTGAACGAAAAATCGTACATTATACTACTGTATCATCCTCCCATTCTCTGGGAGACTTTACTTGAAAGAACTTGGTTGCAGTTTGTTTCAAGTTAATGAGGTTAGCCAGTTTTATCCTAACAGGTTTTTTTTTCCCTTTCACATTTGTAAGCTCTTGAGATGTACAGTTTCTTTTATTCTTTTCTTCTTTTCTCACCCTGAGAGATTTGTATGGAAACATTGTTGTGCATTGTTGATTTTAGGCAGCATCAATGCTTTAATCAGTTGCTCATCACCTAGACTGCTGTATTTGTTAACATTCATCAATGATATATTGTAACTGTTAGCAACCTTTTTTTTTAAA ATGGCCTTTGACAAGGCCGTGAAGAACAAATACATGGAGCTTGCTAATCTAGAGCCTGTTGCTAATGGAGAATTGGATGAAATGGAGAGGGAACCTTCAGCACGCCTTCTTTTGCGGGAGGCTGGTCTGTCCCGTACGCATTTTCCGGGCATGGTGAGGAAGAGAGCTTATATATTTGATGGAAATGGCAACTACTATAATAAGGAATGGGATCTTACTGAGGGTAGAGGAAAGGAGTTCTGTTGGTATCATGTAGAACTTCCAAAAGGCAATCAAAAACTGGCCCTATCTGCTCAGTATCTCATCGATGTTCTTTGCCCGCCATTGAAACTTCAAGATATTCTCTCTCTCGTAAGCAATGGACCCTTTTGTGGACATGTCGATGGGGCTCTTGTCTTCAGAGTCAATTCACCTGGCCCTGCATCTAGTGATTTTACATTCAGAATTGCTGCTAGAATTACCGAGCATTCTGTTATCACCGTGTCATTGGGCCGTGTTCCAAGATTAGGGTTCTCACCAGTTGGTCAGTCTCTTCTCTCGGAGGTTCCTAGTGTGGAGAGCCCCTCTCACTTTAGAGGTGAGCCGAGAGAAAGTGGGAGCATTGTGATTAGGGAGCATGTTCTTGAATTTTTGTTGACAATGAATCACTCGGAGGAGGCCGATAATCCCGTGCCAGCGTCTCTCTCAAATCTGGTTGTTCATATTATTGATACACATATGGATCACCTTCAAGATGTCGTTACTAAGCTTGAGATTGAGTTGGATTCTGTGGAGCTTGAAATGGATAGAGGTGGATTTGCTTTAAAGAAACAAATGCTCGATGACCGAAGATTCCCTAAAATGAACCTCAATCTGCAGCGGCTCCTGCAGGTGATTGCACATGGGGAACAAGTCTTTCCACGAGTGAAAGAGAAATGTTCTTCTAAACATTGGTTTGCCAGTGAAGAAATCAGCTCACTCGAGGAATTAATTGGACGTTTAAGACGGTTGAAAGAGAATGTGGGATTTATCGCGAACCGTGTCACTGCTATTCAGGCCGGTCTCGATAGTTGGCAAGCCGAGCAAATTAACAGGAAACTCTATTATCTATCGTTTCTTTCAATCATATTCTTACCTTTATCTGTCATTACCGGAGTATTTGGCATGAACGTCGGTGGAGTGCCATGGACCGAGCAGAGAAATCCAGAGTTGAAAGAGGGGTTTCGTAACGTCATGTTTCTCTGTGTCATAATGCTACTTGTGGTCTTGCTCTGCTTCAGTTTCCCAGCTCTGTATGCCTACTTAGCGACGTGGCATCGGCGGAGGAAGATGAGAAAGAGCTGGTCTCTCAACAGAAAGTCTTTTCTGAAGAGAACTGTGAGAAATGGGGCTGAAGACAGGGGAGGAGGTTATCTTCGGATCTGA MAFDKAVKNKYMELANLEPVANGELDEMEREPSARLLLREAGLSRTHFPGMVRKRAYIFDGNGNYYNKEWDLTEGRGKEFCWYHVELPKGNQKLALSAQYLIDVLCPPLKLQDILSLVSNGPFCGHVDGALVFRVNSPGPASSDFTFRIAARITEHSVITVSLGRVPRLGFSPVGQSLLSEVPSVESPSHFRGEPRESGSIVIREHVLEFLLTMNHSEEADNPVPASLSNLVVHIIDTHMDHLQDVVTKLEIELDSVELEMDRGGFALKKQMLDDRRFPKMNLNLQRLLQVIAHGEQVFPRVKEKCSSKHWFASEEISSLEELIGRLRRLKENVGFIANRVTAIQAGLDSWQAEQINRKLYYLSFLSIIFLPLSVITGVFGMNVGGVPWTEQRNPELKEGFRNVMFLCVIMLLVVLLCFSFPALYAYLATWHRRRKMRKSWSLNRKSFLKRTVRNGAEDRGGGYLRI Homology
BLAST of Tan0004013 vs. ExPASy Swiss-Prot
Match: Q7N3Y5 (Zinc transport protein ZntB OS=Photorhabdus laumondii subsp. laumondii (strain DSM 15139 / CIP 105565 / TT01) OX=243265 GN=zntB PE=3 SV=1) HSP 1 Score: 69.3 bits (168), Expect = 1.3e-10 Identity = 50/167 (29.94%), Postives = 87/167 (52.10%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy Swiss-Prot
Match: A1JNE0 (Zinc transport protein ZntB OS=Yersinia enterocolitica serotype O:8 / biotype 1B (strain NCTC 13174 / 8081) OX=393305 GN=zntB PE=3 SV=1) HSP 1 Score: 67.4 bits (163), Expect = 4.9e-10 Identity = 53/198 (26.77%), Postives = 96/198 (48.48%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy Swiss-Prot
Match: Q6D5P8 (Zinc transport protein ZntB OS=Pectobacterium atrosepticum (strain SCRI 1043 / ATCC BAA-672) OX=218491 GN=zntB PE=3 SV=1) HSP 1 Score: 67.0 bits (162), Expect = 6.4e-10 Identity = 71/297 (23.91%), Postives = 134/297 (45.12%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy Swiss-Prot
Match: A7FHP6 (Zinc transport protein ZntB OS=Yersinia pseudotuberculosis serotype O:1b (strain IP 31758) OX=349747 GN=zntB PE=3 SV=1) HSP 1 Score: 63.2 bits (152), Expect = 9.2e-09 Identity = 58/244 (23.77%), Postives = 112/244 (45.90%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy Swiss-Prot
Match: Q8ZE46 (Zinc transport protein ZntB OS=Yersinia pestis OX=632 GN=zntB PE=3 SV=1) HSP 1 Score: 63.2 bits (152), Expect = 9.2e-09 Identity = 58/244 (23.77%), Postives = 112/244 (45.90%), Query Frame = 0
BLAST of Tan0004013 vs. NCBI nr
Match: XP_038905179.1 (zinc transport protein ZntB isoform X1 [Benincasa hispida] >XP_038905180.1 zinc transport protein ZntB isoform X1 [Benincasa hispida]) HSP 1 Score: 904.4 bits (2336), Expect = 4.0e-259 Identity = 448/467 (95.93%), Postives = 458/467 (98.07%), Query Frame = 0
BLAST of Tan0004013 vs. NCBI nr
Match: XP_008454447.1 (PREDICTED: zinc transport protein ZntB isoform X1 [Cucumis melo]) HSP 1 Score: 900.6 bits (2326), Expect = 5.7e-258 Identity = 447/467 (95.72%), Postives = 459/467 (98.29%), Query Frame = 0
BLAST of Tan0004013 vs. NCBI nr
Match: XP_022942734.1 (uncharacterized protein LOC111447682 isoform X1 [Cucurbita moschata] >KAG6600254.1 hypothetical protein SDJN03_05487, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 899.4 bits (2323), Expect = 1.3e-257 Identity = 446/467 (95.50%), Postives = 456/467 (97.64%), Query Frame = 0
BLAST of Tan0004013 vs. NCBI nr
Match: XP_023547477.1 (uncharacterized protein LOC111806407 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 898.3 bits (2320), Expect = 2.8e-257 Identity = 445/467 (95.29%), Postives = 456/467 (97.64%), Query Frame = 0
BLAST of Tan0004013 vs. NCBI nr
Match: KAG7030912.1 (zntB [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 897.5 bits (2318), Expect = 4.9e-257 Identity = 445/467 (95.29%), Postives = 455/467 (97.43%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy TrEMBL
Match: A0A1S3BYR1 (zinc transport protein ZntB isoform X1 OS=Cucumis melo OX=3656 GN=LOC103494851 PE=4 SV=1) HSP 1 Score: 900.6 bits (2326), Expect = 2.8e-258 Identity = 447/467 (95.72%), Postives = 459/467 (98.29%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy TrEMBL
Match: A0A6J1FS70 (uncharacterized protein LOC111447682 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111447682 PE=4 SV=1) HSP 1 Score: 899.4 bits (2323), Expect = 6.2e-258 Identity = 446/467 (95.50%), Postives = 456/467 (97.64%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy TrEMBL
Match: A0A6J1JB43 (uncharacterized protein LOC111484180 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111484180 PE=4 SV=1) HSP 1 Score: 895.6 bits (2313), Expect = 8.9e-257 Identity = 444/467 (95.07%), Postives = 455/467 (97.43%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy TrEMBL
Match: A0A0A0KWG8 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G179670 PE=4 SV=1) HSP 1 Score: 889.4 bits (2297), Expect = 6.4e-255 Identity = 441/467 (94.43%), Postives = 456/467 (97.64%), Query Frame = 0
BLAST of Tan0004013 vs. ExPASy TrEMBL
Match: A0A1S3BZE8 (zinc transport protein ZntB isoform X2 OS=Cucumis melo OX=3656 GN=LOC103494851 PE=4 SV=1) HSP 1 Score: 879.8 bits (2272), Expect = 5.1e-252 Identity = 437/456 (95.83%), Postives = 448/456 (98.25%), Query Frame = 0
BLAST of Tan0004013 vs. TAIR 10
Match: AT2G04305.1 (Magnesium transporter CorA-like family protein ) HSP 1 Score: 663.3 bits (1710), Expect = 1.4e-190 Identity = 333/424 (78.54%), Postives = 369/424 (87.03%), 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
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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