Information report for MdTMT1
Gene Details
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Functional Descriptions
- This finding suggested that MdMYB6 could also inhibit anthocyanin biosynthesis by regulating MdTMT1 to decrease the contents of UDP-glucose and UDP-galactose. Taken together, these results showed that MdMYB6 and MdTMT1 play key roles in both anthocyanin biosynthesis and sugar transport.
- Overexpression of MdMYB6 in calli overexpressing MdTMT1 increased the expression of MdTMT1, which led to reduced contents of UDP-glucose and UDP-galactose and decreased anthocyanin content compared to those of the calli that overexpressed MdTMT1.
- MdTMT1 overexpression increased the glucose and fructose contents in Arabidopsis and the red-fleshed apple calli.
- Overexpression of MdTMT1 in red-fleshed calli increased the contents of glucose and fructose but reduced the contents of UDP-glucose.
Functional Keywords
Literature and News
Homologs
- Arabidopsis thaliana: AT3G18830, AT2G43330, AT3G19940
- Arachis hypogaea: arahy.Tifrunner.gnm1.ann1.SMD16A
- Beta vulgaris: Bv5_101120_supk.t1
- Daucus carota: DCAR_027544
- Gossypium hirsutum: GhTST2
- Lactuca sativa: Lsat_1_v5_gn_9_1760
- Oryza sativa: OsTMT2, OsTMT1;OsTST1, OsPGLCT, OsMST, OsMST4, OsMST7
- Triticum aestivum: TaTMT3B, Lr67
Sequences
cDNA Sequence
mRNA Sequence
- />MD06G1005100
ATATCAGCAGCAAAGTAACTGATTAACAGGTGACCGGGAAATAAAGATAAAAATAATGAAGGACAACCGGACAAGTCAAGAACTTGGCAGCTTCAATCATTTAAAAAAAGAAAAGAAAATAAAATTGGAAGCAATCTACATCCACACACACTCTCTGTCACTCTCTCTCACCGTTACAGTGGTCTTCTCTCTCTCCCTCTCTCTCTCTCTCTCACTGTTATAGTGGTAGTAGTAGGAACCATTTTTAAATGTTCATCTGTCCTTTAAATTAATACATGAAATTTTGGAAGTAGGGCATTTGTTGTACTGATTTGGTGGGTTTCTGTTCTGGTTGTGGGTGTGCTCCTGCTCCATTGTTTGACAATTGTCCGAGTTATCCGGAACCCAACTCAGTTTGGTAGTTAGAGAGTGAGTGAAGTGGCTGACGGATGTTGAAGGGTTGTTGGCCAACTGCTTCTTAAACCCATCTCTTTGTCCCTCTGTTTCTCTTCTGTCTTCTCTCCAGATTGCTGTGGAACCATCTCGATTGAGAAAATGAATCTGAGGAGCCATTCTGGATCTTAATCTGCAAATTATATCCGTAAAATATTGCAAAACTTGAGGCTGGATTTGTCTCTATACCAAAGATTCCGCCTAAGACCAGCCAGCTAGCCACCGAAGCCAGTCCTCACCCATCACCCATTTTTAGGATATTTATCCTGCTGCTCTGGAAGTACAGATTGCAGTGCGCACACTCTCTCTCTCTCTCTGTCTCTCTCACTCTCTGACCCCCTGAAGGACGAGGTAATTTTTGAGATTGGGGGTCTCATTCGTTCATTCGTTTAATCATAATTCGTTGGCGAAAAGATGAAGAAGGGAGCCGTGCTGGTGGCTATTGCTGCTACAATTGGTAACCTCCTGCAAGGATGGGATAATGCCACAATTGCCGGGGCTATTGTTTACATAACGAAAGAATTCGACTTGGGGAGTTCTTTGGAAGGCCTTGTTGTGGCCATGTCACTCATCGGAGCAACAATTATTACAACTTGCTCAGGAGCCATATCAGATTGGATTGGTCGGCGGCCAATGTTAATAGCATCCTCAGTCTTTTATTTTGTGAGTGGTTTGGTAATGGTGTGGTCACCCAATGTCTATGTACTATGTATAGCAAGGCTGTTAGATGGATTTGGAATCGGCCTAGCAGTTACTCTCATCCCACTCTATATATCTGAAACTGCCCCACCAGATATAAGGGGATCCTTGAATACTCTTCCGCAGTTCCTTGGTTCAGGCGGCCTGTTTCTGTCCTATTGTATGGTTTTTGGGATGTCACTGATGGACTCACCAAGCTGGAGATTGATGCTTGGGGTTCTTTCCATCCCCTCTTTGATCTACTTTGGGTTAACAGTGTTTTACTTGCCTGAATCTCCTCGATGGCTTGTGAGTAAGGGCAGGATGCTTGAGGCAAAGATTGTTCTCCAGCAGTTACGTGGCACTGAAGATGTTTCTGGTGAACTGGCTTTGCTGGTCGAAGGTCTTGGAATTGGGGGTGAAACATCAATAGAAGAGTACATAATAGGCCCAGCTGATGAGCTTGGCGATAGTCAGGATCCAGCTGACAAAGATAAAATCAAGTTATATGGACCTGAAGAAGGCCTTTCCTGGGTTGCCAGACCTGTCACCGGACAGGGTTCTCTTATTAGTCTTGTTTCTCGCCAAGGAAGCATGGTAAACCAGGGCGTGCCTTTAATGGACCCTCTTGTCACTCTGTTTGGTAGTGTTCATGAAAATTTCCCAGAGACTGCAAGTACCCGAAGCATGCTTTTCCCTAATTTTGGCAGCATGTTCAGCACAGCAGATCGGCCTAAGACTGACCAATGGGATGAAGAGAGTTTGCACGGGGAAGGTGAGGGCTATGGATCTGATGGTGCTGGGGGAGACTCAGATGACAATTTGCATAGTCCATTGATTTCACGTCAGGCAACAAGTCTGGAAAAGGATTTAGTGCCCCCTGCTTCCCATGGCAGTGCTCTAAGCATGAGGCGGCACAGCAGTCTCATGCAAGGAACAGGGGAGACATCTGGCAGCACAGGCATCGGTGGCGGATGGCAGTTGGCATGGAAGTGGTCTGAGAGAGAAGGCGAGGATGGAAAGAAGGAAGGAGGATTTAAAAGGGTATATTTGCATCAGGAGGGAGGCCCAGGCTCCCGTCGTGGGTCCCTTGTGTCACTTCCTGGTGCTGATGTTCCTACAGAAGGTGAGTTTATCCAGGCTGCTGCTCTGGTTAGTCAGCCGGCTCTTTATTCGAAAGAGCTCATGGATAAGCATCCTGTTGGACCTGCAATGGTTCATCCAGCAGAAACAGCTTCAAAAGGACCAATATGGGCTGCTCTGCTTGAACCAGGAGTTAAGCATGCATTGTTAGTTGGAATGGGAATCCAGATTCTCCAGCAGTTTTCTGGCATAAATGGGGTTCTCTACTACACTCCTCAAATTCTTGAAGAGGCAGGCGTTGAAGTACTTCTTTCAGACTTGGGTCTCAGTTCAACGTCTTCATCCTTCCTTATAAGTGCATTCACAACATTGTTGATGCTTCCTTGTATAGCTTTGGCCATAAAGCTCATGGATATCACTGGTCGAAGGATGCTGCTGCTGACTACGATTCCAGTGTTGATAGTAGCACTCATCATTCTCGTGGTTACCAACCTTTTGACCTTGGGTTCAGTTCTTCATGCAGTACTATCAACCACTTGTGTTATCGTCTATTTCTGCGTCTTTGTCATGGCGTATGGGCCAATTCCAAATATCCTGTGCTCCGAAATATTTCCCACAAGGGTGCGTGGCCTGTGCATTGCCATCTGCGCCTTGGTGTACTGGATTGGGGACATCATCGTCACTTACTCGCTACCTGTGATGCTTGATTCAATGGGCCTATCCGGTGCCTTTGGGATTTACGCAGCGGTTTGTGTCATTTCTTTTGTATTCATCTTCTTGAAGGTTCCGGAAACCAAAGGCATGCCCCTCGAAGTCATCACCGAGTTCTTTTCTGTTGGTGCAAGACAAGTTGCGGCTGCCAAAAACGAGTAATTGCAAACTCGTGCAGTGTTACTGTGGACGTCCATCTTGTCAATTGCAGTGCATTTGAATATTCAAGCAGGTTTACTCTTCAATTTTGATGCGTGTATGATAAAGTAGCTCGAGTATTTAGGATTGGAGATTATAGAGTAAGAAAGCTTAGCTGACTGGGTTGAGTCCTTTGACTCTTCAATTTTCATGTCCTTATTTAAATAAACCATATTCAAGAGCCAAATGTAGTACTGGATTTGCCGAGTGTTTTTATATGGGGAGTCAGATATCTGGCGGGAATAGGGGAAGGGGGGGTCTGGAGATTCTTAGGCAGCCACTTCAGTCTCCAGTGCAACCTATGTCTTAATATGGAATAAATTAAATAGTGACCTTTAAAATCTTGTCAAACCTACTAGGCCATCTCCAAGGGAGTGCTAAAGGCCTCATTTGATTATCATGAAGAAAATATACCTCTACTAGTCCGCACAAAAATGATAAGAAAAGGGACGACTTTTCTTCGTGAGTAATCTTTAATTTGGAAAAAATCGGGAGTTGTCATTCATTTCTTCCTTTAAAATGTCTTTAATATAGTGAATAGTCTTATC
Protein Sequence
- />MD06G1005100
MKKGAVLVAIAATIGNLLQGWDNATIAGAIVYITKEFDLGSSLEGLVVAMSLIGATIITTCSGAISDWIGRRPMLIASSVFYFVSGLVMVWSPNVYVLCIARLLDGFGIGLAVTLIPLYISETAPPDIRGSLNTLPQFLGSGGLFLSYCMVFGMSLMDSPSWRLMLGVLSIPSLIYFGLTVFYLPESPRWLVSKGRMLEAKIVLQQLRGTEDVSGELALLVEGLGIGGETSIEEYIIGPADELGDSQDPADKDKIKLYGPEEGLSWVARPVTGQGSLISLVSRQGSMVNQGVPLMDPLVTLFGSVHENFPETASTRSMLFPNFGSMFSTADRPKTDQWDEESLHGEGEGYGSDGAGGDSDDNLHSPLISRQATSLEKDLVPPASHGSALSMRRHSSLMQGTGETSGSTGIGGGWQLAWKWSEREGEDGKKEGGFKRVYLHQEGGPGSRRGSLVSLPGADVPTEGEFIQAAALVSQPALYSKELMDKHPVGPAMVHPAETASKGPIWAALLEPGVKHALLVGMGIQILQQFSGINGVLYYTPQILEEAGVEVLLSDLGLSSTSSSFLISAFTTLLMLPCIALAIKLMDITGRRMLLLTTIPVLIVALIILVVTNLLTLGSVLHAVLSTTCVIVYFCVFVMAYGPIPNILCSEIFPTRVRGLCIAICALVYWIGDIIVTYSLPVMLDSMGLSGAFGIYAAVCVISFVFIFLKVPETKGMPLEVITEFFSVGARQVAAAKNE