CmaCh09G011500 (gene) Cucurbita maxima (Rimu)
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDS Hold the cursor over a type above to highlight its positions in the sequence below.CAAATTCCCATAAAGAAACAGAAAAAGCGCAGCAGATGAAATGAGGAGATGATAAAGCAAGCGCACTCATTGATTCAAATTCTCAACGAGCTCCAATTCATCACAACCATTAGCAGACACCCATTCCGTTCATCGATCCATCATTTCTCTCCCTTCCAAATCAGACCGCTGGGGAATCTCACTTCCACACGTTCCCGGAATCATCGTCGCCGGTCGCCCATGGCCGCCTCCGCCGCGGGTAACCCTTCACCCTCCTCTTCCTCCTCCTCCAACGCTTTTATTTTCTCCCCCGATTCTCCCCCTAGACTCGTTCTCACACCCCATCAGGTGAAGCTTTGTTCCGAAGCTCTTGACGCCTTCAAGGAGAAGCTCCAGATGCCTGATGTCATCAACCAGGAGTTCGCCCGATTGCAGGTTCGCCTTTCATTTTTATGCTATATTTGTTTCTCTTGTCCCTCTGTTGAGAAATACATGGAGATTGATCTAGTTTGTGGTTAATTTCTGTTTACTGTGGTTTATCTTCTTAAGAAGTTGGAAAATGATCGATATGTTCATCTAGTTTTAGAATTGATAACGACATTATTGAGTTTTGTAAGTCATTCTACTTTTTTGCTGATGAAATTCTTAAAACTTTGCTCTGGAAGTGTCTAAATGAGGTTCTAGTTCTGTTAATAGATTTGATAGTTTTAGTGGGTTGATCAATTTTGTGTATCAATGTCTTGGATTTTGTCTGAGAAGCATGTACACTTAGTTTAGGTAATGTGTCCATGTCGGACACTCTGATGCTTTAATACTTGTTTGACAACATTTGTTAGTACTGTAAATATATGTCAGACACTAGTTGTGCAAAGTGAATACAAATCTAATATTTGTTACACACATTTAGAATACTTTTTAAGCATGATAATTAGAGAAATATAGTGACGTAGGATGAGAATAATAGTGTGAGATCCAATATCGGTTGGGAAGGAGAACGAAACATTGTTTATAAGGTGTGGAAACCTCTCCCTAGCAGATGCGTTTTAAAAACCTTAAGGAGAAGCTTGAAAGGGAAAATCCAAAGAGGACAATATTTGCTAACGGTGGGCTTGGGCTGTTACAAATGGTATCAGAGCCAGACATCGGGTCATGTGCCAACGAGATGGTTGAGCTCTGAAGGGGGGGTGGAAATGAGGTGGTGTGCTAGTAAGGATATTGGGTCCCAATGGGTGGTGGTGGATCGGGGGGTCCCACATCAATTGGAGAAGGGAATGAGTGCCAGCGAGGACACTGGACCTCAATCTGAAGGGGGGTGGATTGTGAGATCCCACATCAGTTGGGAAGGAGAACGAAACACTTTTTATAAGGGTGTGGAAGCTTTTCCTTAGCAGATACCTTTTAAAATCCTTGAGGGGAAGCTCGAAAAGGAAAACTCAAAGAGGACAATATTTGCTAGCGGTGGACTTGGGCTGTTACAAATGGTATCAGAGCCAGACATTAGGCCATGTGCCAGTGAGGAGGTTGAGCTCTGAAGGGGGGTGGACACAAGATGGTGTGCTATTAAGGATGCTGGGTTCCAATGGGTGGTGGATTGGGGGGTCTCTCATCGATTGGAGAAGGGAACGAGTGCCAGGGAAGACGCTGGACTCCGATCTAAAGGGGGGTGGATTGTGAGATCCCACATCAGTTGGGAAGGAGAACAAAACATTCTTTATAAGGGTGTGGAAACCTCTTCCTAGTAGACATGTTTCATAAACCTTGAGGGGAAGCCCGAAAGGGAAAACCCAAAAAGGACAATATCTGCTAGCGGTAGACTTGGACTATTACAAATAAGCTTCGAACATGAAACATATCCAACTCATTTTTTTAAGCCTGCATGTACATAAATTTCTAGTTCTCACGCACGGTTGTTGAATCATTTTTTCTATGTTCTAATTATCATGAACTGTTGTCTCATTGTGGATTCAGGCCCAGAGAATAACTGCATCGGACATGAAGAAAAATTGCTCTGTGGCTCTTGACAATGTCAACATCAGTAAGAATCGTTACACCGATGTATTACCCTGTAAGTTCAACTACCATTCAAACCTTTTGTTTCACTGAATTTTCTATTTGAAAACTAAAAGTTTTTCATCATTAGTTAGTCCAATATGATAGCTGAAATGTTGTATAAATAATTTCAGTTGACGAGACTAGAGTCGTACTCGACTCTTGTAAGGATTACAGACCTTCCGCAAAGGGTTATATCAATGCAAGCTTTATTTCCGTAAGTGCAATAATTGATATGCTTCAACTTAGATAATATTTCAGTACAAGTATCTCTTTTGACCTTCCTTTCCATTGTCTATTTGAATATTCAGAGTTCCTCCTCAGAAAGCCTTTCTAAGTTTATTGCCACACAAGGTCCATTACCACACACTTATGAGGATTTCTGGGAGATGGTATTTCAGTATAAATGCCCTGCAATCTTGATGCTTACTCGTCTCATTGATAATTACAAGGTACTATTCTGTATGAACTACATGTTAATTTTAATTTCCACAAGATTTCATTCGTGTATAAAAATGTTCTAGAAAGGATTGAAAGATTGGATGGAACTAATGTTGATAAGTTCTTATTACCCCCTTGTCGTATGGAGGAGACCGATAGACGTGAACAATTTTCTCCTACTAGATTAGGATCCATAGTATTATCCTCAATGGGTGACTGAAAAGAAAGGACCAGCCCACTACTCCGAGTATAGTTTAAGGGATAAGCAACAATGTCACGATTTGAACTTCTTTAACATACAAAGACCTTGAGGACTCGAGAGCTTTAATGGATGCATCAAAAGGGGACACATGAATCTCAGAAGGAGGAAAATACCCACCCCTATCTCCAAATCTAATAAACACATTCCCCCATTTTTATCCTAGATTTCTATTGAAGCGGGAAGAAAATCACACACATTTCTTTTTTACTTCAATGAGGCTAAGTGCAATTTAACATATTAAGAGTTTGGGAAGAAATACTCTCAAGACCACCAAAGTAATAACCGATAGCTTTACACGTCCTACGATCCCAATAGGTTAGAGGCAAGTTTTTGATGGACATCCGCACATAACCCTCAATAAAATGCGGATGACTGTACTTTTCACGAGGCCACTTTTCAATATACAAATGCTCAAAAGACATTAATGAGTTCCCACCCTTAAAACTTAGTAAAGCCTTGTTTTCCATGAAATGATTAATTGAAACAAAGTCCTTAAAGTTCTCTTCCAAAACATCATTAATCTCCTTCCAATTATTGTGAGTAAATAGCCTAGAAACAACCATAAGCTCGCTAAAATTCAAGTTCACCACTTCTAGGTCTTTCTTCACCCATTGAGAATAAGAAGAATACAACTTTTCAACAGTGCTTAAGCCCCTGTTTTCCATTCAAGTCCTTTGATACATTCCTCACGTACTAAAAGAATAAGAATTTTTCTCGAAAGATGATTTAACTAAACCCTTTAAAACATGGGAGTTGTCATCATAATTCTTGAGGAAGTCTTTTAGCATTTCTTAGAAAATATACCAACTTTTTGTAAGAAACTCAGGGAATTGAATTAACATTTTTCCTCCAAAGGTGGCCAAACACTGCAATCTATGAACCAACCTGATAAGATAAGGAACCACTACAAGGGGAGTAAGATTCGGATTACCTTGTTGATCGAATATCTCAAGGCAAGAACATTGTTTGAGATACGAATCACTCCACAAGCAAGATCGATCATGTCTAGCTTGAATGATTCTTGTTGATCAAATATCTCAAACACTTGTTTGAGATTCGAATCACTCCACAAGCAAGATTGATCATGTCGAGCTTGAATGATTCTACATGCAACCTAAACTACATAGAATTGCAAAGAAACTTAGCCATTGGCTAAAGAAGAGCACAAATGCTTCTTTTTACTATATTTTTCAAGTCTCCTACAAATACAACATACATGGCTTTATATAGCCTCAAAATAAAACTACTAGACATTCCAAGAGTTAACATTCATACTTAATGGTCATAATTAACCATTATGTAATTGTAACCTAAAGTAAATAAAAAGTCATAAAAACACTAAATTGTAACCCACCCAAAATTTATAACAATCAAACTTCACTTTTCTTCAATGTGGCATGCATTGAAACATCTTTTGATAATTTTGACAACTTTTATTCACATCGTCATTGAAGTATATTGTATGATTGATGTTTTTTTGGTTCATATCACAACCAGAATAAAACCTTCGTTTTGACAAACAAATTGTACCACTATCAATCTCTAGTTTGCTTGAGAAAGTTCATAGAAATTAGAAGAAGCAAAGATCCACAAGCAGCCTTCTAACTAGTGGAAATGTGGTAACGAGAGAGGAGTAATCAACTTGTTCTTCACTACTTGAACAAAGAGCACACCATTTGCAAACCAAATGCTAAAGTACTTATTATCAACATAGCAGCTCCTTTCAACCATAACATATGCAGAAAAAAAGAAGGTTAAAAAACAAAGCTAAGAATCTTTTGGCTGGCAATCAGACTATTGGCGATAAAGCTGATGAACGATGACAAAAACAATAACCGAGAAAGAAGGTGGTGTTGACAGTGAGCGGTGGCGACACACGACTGTTGAAGCTAACCCATCGGAGAGATAGAAGAGCTTTTTCCTCAAAACTCAAGGACACAGTTGTACAACCTATAGAACAGATCCTGTTCAAGTAAGGTCGTAGATAGAAGAGCTTTTGTAAACTAGACCCAAAGAATGAGTTTGTAAATGTGAAGAGATGTTGAAGCTGAGATCGCAAACAATAGACAAAGACAATTGGTCTACGACAATTAGATGACAATGAATAGGACCAGCGGTGGTGCGACTGAGTTTGGCAACGATGGCGACTAGAGTTAGGTTTGACGACAACGGCTAGGGTTAGGTCCATCGGGGGTAGAGAAAAAGCCTATTGGCTTTTGGTTCCTTGGCTAAATATTCTAATCATTGTCTTATTATAAGAAGAAATAAGGGACTCTCAAATTTTCCTAATTTATATCATAACCATTACCAAATTCTATCACTATCATCAATCCTGCTTAACTTTCTTGATTGTTTTATATCATTGTGATTTATAACTACAAATGCCTAACTTCTAATAATTTGTGCAGATGGTGAAGTGTGGAGATTATTTTCCAGCTGAAGATGGTAGTAGAGATTTTGGTAATCTATTGGTAGTCTCCAAATGGATAAAATCTTCCAATTCCTCTCTTATACTGCGCCATTTGGAAGTGAACCATAAAGAGGTAATTTCTTACATGCTATTTCTACACGTGTGTATAACTTCTATACGTCAACCGAAACATATAAATACTAATGTTGCCTTTGGGTGTCATGTAGTTAGAGGGTCAGTTGGGTATATTTTGAAGGAGACAAGTTGGGTTAGAATTAGCATGTGTGTGCAAATAAAGTGCATAGGAATTTGAAGATAGAGGGTGATTAGTCGGGTGTAAGGATTCTGAATATAGGAAAAATAACGCTAAAACTATATTTGCCAATATCAATAATCTTTCTAGAGGGCTATCTTTCTCGACAATCCTCCATCGTGTATTGATTCATCAAAATTACGTGTATCTCCGTCTTCCTAACTTCCTCTATGGTACGAGCTAGTGGAAATGACACAAGAAACTATCAAAAAAAAAAAAACCTCTTAGACCTCTAGTACACAAACTGAAAGAAGACAATATCAAATTGAAATTGACTCGAGGTGAGAGTTGTAAGTAGGGTTATCTTATGGACGAAGGCAAAGAAAAAACTTGTTCGTACTTCGAGAATGAAACACTCTACAAGTTTGATGACCAACCAATACATGTAAGACTAAAGCAAGGCTTACAAAAGGACATGCGTGAACACAATTAAGAGAATTCTTCCTAACCTAAAAATGCAATAAAATAAAGCTATAAAAGTCTCTTACAAAATATAATCCATGATCTAACATATCTCCAAAAGGATCTAAGTATATTTCTAAATTAATCAAAGAAACAAGCAAGGAAACTTCTCAAAAGAAGTTGGTTTGGGATAGGTTTTGAGCCGTTGAAGGGTGTGCATGTAGTTGGGCGGTAGACAGGGTAGAGGCATGTGTAAGGAGAGGCGACTGGCCTTGTGAGTATTAGGTGTCGTGGGTGGCCAACAGGTGATGTGCTCAAGGTTGGCATGAACATCCTGTGCACAAATGTTGGCATGCACCCGGTGTCCCACGCGTGCATTGATGTGTTGACAATGTTGATATTGTGTGTACACATTGGTGAGCAAGCGTGAGCTACCAAGACAGGGCAGTTGTGCATGGTATAACTTCTTAGGAGGGTTTTGAGTCTTATTGTGCGGATACACGTGGCTGATTGGCAATGGACATGAGTCGCATGCACAACTTTACTCCTTGGTCCTCTATGGCTTATCCCTTGATGCCTTTTGGTAGGTTGAGTATCGTGGTATCATGATCATATCACACCATTCATAAATGAAAACATATATATATATATATATATAAACTGAATGAAAAAACCCATAAATATATAAAAACTGAACGACTACCGAAATAAATACCCTCCTTTTTTAAACCAGGGCTGAATAGACTAGGAAGGGTACAATGGCAGCTTCCCATTGCTTCATTCTAGTGGAACCAACTTATAAAAAACTTTAACATGTGCGACTTCTGGTGAAATTCGTCCCCCTTTACGAATTCCAAATGCTAAGGTTTTGAACCATAAAAAGATCTGCTCACGAAATGCTCCTCCGCTATCCTGAATCCTAGCCCTAGCCCCACTGTAAGTGTAAGTAGATATTGGCCTCGTTGGGCTTTCCCTCAAGGTTTTTAAAACACGTCTATTAGGGAGAGATTTCAACATTCTTATAAAGAATGTTTCTTTCTCCTCCCCAACCGATGTGGGATCTCATAATCCACTTCCCTTCGAGGCACAACGTCCTCGTTGTCGTTGGCACTCATTCCCTTCTCCAATTGATGTGGGACCTCCCAATCCACTCTCCTTCGGGGCCCAGCATCCTTGCTAGCACACCGCCTTGTGGCCACCTCCTTCGGGGCTCAACCTCCTCGTCGGCACATTGCCCGGTGTCTGGCTCTGTTACCATTTGTAATAGCCCAAGCCCACCTCAAACAGATATTGTCCTCTTTGGGCTTTCCCTCGAGGTTTTTAAAACGCGTCTACTAGGAAGAGGTTTAAACACCCTTATAAAGAATGCTTTGTTCTCCTCCCCAACCTATGTAGGATCTCACAATCCACCTTCCTTCGGGGCCTAGCGTCCTCGCTGGCCCTCATTCCCTTCTTCAATTGATGTGGGACCACCCTATCCACCCTCTTTCGGGGCCCAACATCCTTGCTGGCACACCGCCTCGTGTCCACCCCCTTCGGGACAGAGCCTCCTCACTGGCATATCGTCCGGTGTTTGGCTTTGATACCATTTGTAATGGTCCAAGCCCACCGCAAGCAGATATTGTCCTCTTAGGGCTTTTCCTGAAGGTTTTTAAAATGCCTATTAGGGAGAGGTTTCAACATCCTTATAAAGAATGCTTCGTTCTCCTCTCCAATTGACGTGGGATCTCACACTTATAATGTACATAAGAATATCAAATCAGATACTAAAACGCTCAAACAGGAACTATGAGCATTCTACTAATATTGCTTGATGAAAGAGACAAACTAATGGAAGAGATGCGTAAAATCATTAGCAAATCACTCACAAATATTAGGTTTTATACTTGAAGTCATAGCTAAAAACTCTTTTTTTAAGAGTTATCCAACCTCCAAACTTGAATTATTACTTGTCCCTAAGTAATACAAGCCTCATGAATCTCCCCTAAAATTTTAACCATCAGTAAACCAACTACCTTAGGTAGAGAATTTGTTTCTACCTCGTATAGCTCTCCATTGGGCTCTTCTTTCCACAAATCGCTCTATCAAGATTAATTATGCTGCAAAGCCTTCTGCTGTGGTGTTATTTTAGTTCCTAACTTAACCTACCTATGCTACAGTCTCATCATTCGCTTGCTAAAACCTATAAAAGCTTAACTAACCCGTTAGTTCCCAATCGCTAATACAACCATTACTTAAATCCTCAAGGTCACTGTGCAATCCTTTAACCAGTTCTTATTCTTTCTTTAACTTACTAGCTAAAATCTGTCTTTTTCAATCACTCAGAGAATCCGATTGTGCATATATCTTTGTATGTTTCTCCTGCATTTTCTGCTCGAAACTATCTGTAACGAGCTCATCCAGAACCCAAACCATAGAACAATTTTCAACATCAGTGGGGTATTTCAGGTTATCATAAACATTGAATTTCACCTCCTGATCATTCACTCCTATAGTCAACTCCCATTTATGAGGATCTTCCTAAGATGGTGGGTACATTTATGTCAGCCTCATGGTCCAAAAGGAAAAAAGTACTTGTCAACATGCACTGAAATACACTCTAATTTCCCTTCAGGAAAGGTAGTGGACCTATGGGCAAGTTGCTAAGTGATAGTGGTGGGCCTAGCTTCTCCTCTGCCTAATTTCTGATAAACAAAAAGAGGCATAAGGTTTATGCTAGCTCCAAGGTCACAGAGGGCTCTAAACAACTCTTTCCCTCCTATGTATATAGGGATGCTGAAAGTGTTAAGTTCTATCACCTTAGGAGGAATTTGATCCTTCGAGATTGCGCTGCATTCCTTAGTCGAAGAGACTGTTTCATACTCGCTCAATCTCCTTCTCTCCTTGGTGAGAATATCTTTGAGCAATTTTACATAGTTGGACCTTTGTTTCAAAGCTTAAACCAATGGAATATTTATCCACTGATTTCTTGATGTTTTTAAGCACCTTCGTATAAATATTGAAACATAACATTAGTTCCATTGGTTTATGCATGAGTTTTGGTTATAGTTTAATACAAACATTCTTAATCCTTACCTAATGATGATTAGTTCATGTTACAAGCTGAATTATATATATGTGTATGTGTGTGTGTGTGCACGTGTGTATGTATATATACATAAACTAAATGAACAAGCCATCAAAGAAAACAAACTACAGTAGACTAAAGTTCAGAGGAAGAAAGAAGCTTCCCATTGGTTGATTCGAGCTGATTCAACTTATAAAAGAGCCAGCTCTTTAAGCTCATTTAATGAATTGCTTTCACACATGCTCTTTTCATTCTATTCGTGCGACTCTTCATGGACCTATTTTGTGGTTTTACTAAGCTCCGAGTCACGTTTCCCTCTCCATTGGCTTTGTAGTCAGAAGAACATGTGGCTGTTCTACATATTCAGTACCCAGAATGGCCCGACCATGGAGTTCCTAACGACACACTTGCTGTTCGTGAAATGTTGAAGAGGCTGTATCATTTACCACCCAATCTCGGCCCAATAGTGGTGCACTGCAGGTACAGCCTATGTCCATCATCATACGACACACAGTGCTCGTTCGCGTTATCTGAGGTTGTTTCACTTCTTCAGTGCAGGTATTGGAAGAACTGGAACATATTGTGCAATTCATAACACAATTCAGAGAATCCTTATTGGAGACTTGTCTGCTTTAGATCTTGTCAGTACCATTTTTACGTTTAGGTCCCAGCGAATTGGAATGGTTCAAACTCTGGTAAACTAG CAAATTCCCATAAAGAAACAGAAAAAGCGCAGCAGATGAAATGAGGAGATGATAAAGCAAGCGCACTCATTGATTCAAATTCTCAACGAGCTCCAATTCATCACAACCATTAGCAGACACCCATTCCGTTCATCGATCCATCATTTCTCTCCCTTCCAAATCAGACCGCTGGGGAATCTCACTTCCACACGTTCCCGGAATCATCGTCGCCGGTCGCCCATGGCCGCCTCCGCCGCGGGTAACCCTTCACCCTCCTCTTCCTCCTCCTCCAACGCTTTTATTTTCTCCCCCGATTCTCCCCCTAGACTCGTTCTCACACCCCATCAGGTGAAGCTTTGTTCCGAAGCTCTTGACGCCTTCAAGGAGAAGCTCCAGATGCCTGATGTCATCAACCAGGAGTTCGCCCGATTGCAGGCCCAGAGAATAACTGCATCGGACATGAAGAAAAATTGCTCTGTGGCTCTTGACAATGTCAACATCAGTAAGAATCGTTACACCGATGTATTACCCTTTGACGAGACTAGAGTCGTACTCGACTCTTGTAAGGATTACAGACCTTCCGCAAAGGGTTATATCAATGCAAGCTTTATTTCCAGTTCCTCCTCAGAAAGCCTTTCTAAGTTTATTGCCACACAAGGTCCATTACCACACACTTATGAGGATTTCTGGGAGATGGTATTTCAGTATAAATGCCCTGCAATCTTGATGCTTACTCGTCTCATTGATAATTACAAGATGGTGAAGTGTGGAGATTATTTTCCAGCTGAAGATGGTAGTAGAGATTTTGGTAATCTATTGGTAGTCTCCAAATGGATAAAATCTTCCAATTCCTCTCTTATACTGCGCCATTTGGAAGTGAACCATAAAGAGTCAGAAGAACATGTGGCTGTTCTACATATTCAGTACCCAGAATGGCCCGACCATGGAGTTCCTAACGACACACTTGCTGTTCGTGAAATGTTGAAGAGGCTGTATCATTTACCACCCAATCTCGGCCCAATAGTGGTGCACTGCAGTGCAGGTATTGGAAGAACTGGAACATATTGTGCAATTCATAACACAATTCAGAGAATCCTTATTGGAGACTTGTCTGCTTTAGATCTTGTCAGTACCATTTTTACGTTTAGGTCCCAGCGAATTGGAATGGTTCAAACTCTGGTAAACTAG ATGATAAAGCAAGCGCACTCATTGATTCAAATTCTCAACGAGCTCCAATTCATCACAACCATTAGCAGACACCCATTCCGTTCATCGATCCATCATTTCTCTCCCTTCCAAATCAGACCGCTGGGGAATCTCACTTCCACACGTTCCCGGAATCATCGTCGCCGGTCGCCCATGGCCGCCTCCGCCGCGGGTAACCCTTCACCCTCCTCTTCCTCCTCCTCCAACGCTTTTATTTTCTCCCCCGATTCTCCCCCTAGACTCGTTCTCACACCCCATCAGGTGAAGCTTTGTTCCGAAGCTCTTGACGCCTTCAAGGAGAAGCTCCAGATGCCTGATGTCATCAACCAGGAGTTCGCCCGATTGCAGGCCCAGAGAATAACTGCATCGGACATGAAGAAAAATTGCTCTGTGGCTCTTGACAATGTCAACATCAGTAAGAATCGTTACACCGATGTATTACCCTTTGACGAGACTAGAGTCGTACTCGACTCTTGTAAGGATTACAGACCTTCCGCAAAGGGTTATATCAATGCAAGCTTTATTTCCAGTTCCTCCTCAGAAAGCCTTTCTAAGTTTATTGCCACACAAGGTCCATTACCACACACTTATGAGGATTTCTGGGAGATGGTATTTCAGTATAAATGCCCTGCAATCTTGATGCTTACTCGTCTCATTGATAATTACAAGATGGTGAAGTGTGGAGATTATTTTCCAGCTGAAGATGGTAGTAGAGATTTTGGTAATCTATTGGTAGTCTCCAAATGGATAAAATCTTCCAATTCCTCTCTTATACTGCGCCATTTGGAAGTGAACCATAAAGAGTCAGAAGAACATGTGGCTGTTCTACATATTCAGTACCCAGAATGGCCCGACCATGGAGTTCCTAACGACACACTTGCTGTTCGTGAAATGTTGAAGAGGCTGTATCATTTACCACCCAATCTCGGCCCAATAGTGGTGCACTGCAGTGCAGGTATTGGAAGAACTGGAACATATTGTGCAATTCATAACACAATTCAGAGAATCCTTATTGGAGACTTGTCTGCTTTAGATCTTGTCAGTACCATTTTTACGTTTAGGTCCCAGCGAATTGGAATGGTTCAAACTCTGGTAAACTAG MIKQAHSLIQILNELQFITTISRHPFRSSIHHFSPFQIRPLGNLTSTRSRNHRRRSPMAASAAGNPSPSSSSSSNAFIFSPDSPPRLVLTPHQVKLCSEALDAFKEKLQMPDVINQEFARLQAQRITASDMKKNCSVALDNVNISKNRYTDVLPFDETRVVLDSCKDYRPSAKGYINASFISSSSSESLSKFIATQGPLPHTYEDFWEMVFQYKCPAILMLTRLIDNYKMVKCGDYFPAEDGSRDFGNLLVVSKWIKSSNSSLILRHLEVNHKESEEHVAVLHIQYPEWPDHGVPNDTLAVREMLKRLYHLPPNLGPIVVHCSAGIGRTGTYCAIHNTIQRILIGDLSALDLVSTIFTFRSQRIGMVQTLVN
BLAST of CmaCh09G011500 vs. Swiss-Prot
Match: PTP1_ARATH (Protein-tyrosine-phosphatase PTP1 OS=Arabidopsis thaliana GN=PTP1 PE=1 SV=1) HSP 1 Score: 395.2 bits (1014), Expect = 7.9e-109 Identity = 194/310 (62.58%), Postives = 247/310 (79.68%), Query Frame = 1
BLAST of CmaCh09G011500 vs. Swiss-Prot
Match: PTPRB_HUMAN (Receptor-type tyrosine-protein phosphatase beta OS=Homo sapiens GN=PTPRB PE=1 SV=3) HSP 1 Score: 153.3 bits (386), Expect = 5.2e-36 Identity = 95/280 (33.93%), Postives = 151/280 (53.93%), Query Frame = 1
BLAST of CmaCh09G011500 vs. Swiss-Prot
Match: PTPRB_MOUSE (Receptor-type tyrosine-protein phosphatase beta OS=Mus musculus GN=Ptprb PE=1 SV=1) HSP 1 Score: 148.7 bits (374), Expect = 1.3e-34 Identity = 84/241 (34.85%), Postives = 138/241 (57.26%), Query Frame = 1
BLAST of CmaCh09G011500 vs. Swiss-Prot
Match: PTN1_CHICK (Tyrosine-protein phosphatase non-receptor type 1 OS=Gallus gallus GN=PTPN1 PE=1 SV=1) HSP 1 Score: 146.4 bits (368), Expect = 6.4e-34 Identity = 98/277 (35.38%), Postives = 145/277 (52.35%), Query Frame = 1
BLAST of CmaCh09G011500 vs. Swiss-Prot
Match: PTPRC_HUMAN (Receptor-type tyrosine-protein phosphatase C OS=Homo sapiens GN=PTPRC PE=1 SV=2) HSP 1 Score: 145.6 bits (366), Expect = 1.1e-33 Identity = 87/228 (38.16%), Postives = 125/228 (54.82%), Query Frame = 1
BLAST of CmaCh09G011500 vs. TrEMBL
Match: F6GYU9_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_18s0076g00280 PE=4 SV=1) HSP 1 Score: 483.8 bits (1244), Expect = 1.9e-133 Identity = 238/314 (75.80%), Postives = 275/314 (87.58%), Query Frame = 1
BLAST of CmaCh09G011500 vs. TrEMBL
Match: W9R5G6_9ROSA (Tyrosine-protein phosphatase non-receptor type 20 OS=Morus notabilis GN=L484_016432 PE=4 SV=1) HSP 1 Score: 471.9 bits (1213), Expect = 7.4e-130 Identity = 227/310 (73.23%), Postives = 266/310 (85.81%), Query Frame = 1
BLAST of CmaCh09G011500 vs. TrEMBL
Match: A0A067KEM2_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_17149 PE=4 SV=1) HSP 1 Score: 465.3 bits (1196), Expect = 6.9e-128 Identity = 222/316 (70.25%), Postives = 271/316 (85.76%), Query Frame = 1
BLAST of CmaCh09G011500 vs. TrEMBL
Match: Q2HPK4_FAGSY (Protein tyrosine phosphatase OS=Fagus sylvatica GN=ptp1 PE=2 SV=1) HSP 1 Score: 464.2 bits (1193), Expect = 1.5e-127 Identity = 223/302 (73.84%), Postives = 269/302 (89.07%), Query Frame = 1
BLAST of CmaCh09G011500 vs. TrEMBL
Match: M5VNA4_PRUPE (Uncharacterized protein (Fragment) OS=Prunus persica GN=PRUPE_ppa015486mg PE=4 SV=1) HSP 1 Score: 463.8 bits (1192), Expect = 2.0e-127 Identity = 227/313 (72.52%), Postives = 268/313 (85.62%), Query Frame = 1
BLAST of CmaCh09G011500 vs. TAIR10
Match: AT1G71860.1 (AT1G71860.1 protein tyrosine phosphatase 1) HSP 1 Score: 395.2 bits (1014), Expect = 4.5e-110 Identity = 194/310 (62.58%), Postives = 247/310 (79.68%), Query Frame = 1
BLAST of CmaCh09G011500 vs. NCBI nr
Match: gi|659123078|ref|XP_008461477.1| (PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X1 [Cucumis melo]) HSP 1 Score: 612.8 bits (1579), Expect = 3.9e-172 Identity = 312/373 (83.65%), Postives = 337/373 (90.35%), Query Frame = 1
BLAST of CmaCh09G011500 vs. NCBI nr
Match: gi|449443877|ref|XP_004139702.1| (PREDICTED: protein-tyrosine-phosphatase PTP1 [Cucumis sativus]) HSP 1 Score: 590.5 bits (1521), Expect = 2.0e-165 Identity = 299/352 (84.94%), Postives = 322/352 (91.48%), Query Frame = 1
BLAST of CmaCh09G011500 vs. NCBI nr
Match: gi|659109201|ref|XP_008454599.1| (PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X1 [Cucumis melo]) HSP 1 Score: 564.3 bits (1453), Expect = 1.6e-157 Identity = 275/310 (88.71%), Postives = 296/310 (95.48%), Query Frame = 1
BLAST of CmaCh09G011500 vs. NCBI nr
Match: gi|659123080|ref|XP_008461478.1| (PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X2 [Cucumis melo]) HSP 1 Score: 526.2 bits (1354), Expect = 4.7e-146 Identity = 267/325 (82.15%), Postives = 290/325 (89.23%), Query Frame = 1
BLAST of CmaCh09G011500 vs. NCBI nr
Match: gi|225463924|ref|XP_002267287.1| (PREDICTED: protein-tyrosine-phosphatase PTP1 isoform X4 [Vitis vinifera]) HSP 1 Score: 483.8 bits (1244), Expect = 2.7e-133 Identity = 238/314 (75.80%), Postives = 275/314 (87.58%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Cucurbita maxima
Date Performed: 2017-05-20
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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