Gene Details:

  • Gene ID: Solyc05g010660.3
  • Suggest Gene Name: MALE GAMETOPHYTE DEFECTIVE 3, RPOTM
  • Description: putative flowering gene
  • Species: Solanum lycopersicum
  • Source: Putative flowering gene from PlantCFG

Protein Features:

Functional Descriptions:

  • MGP3 (male gametophyte-defective 3) belongs to a small family of nuclear-encoded Phage type RNA polymerases (RPOTs) involved in the transcription of mitochondrial genes in Arabidopsis thaliana. Mutation in MGP 3 significantly retarded pollen tube growth and caused defective embryo development.

Homologous

Sequences:

CDS Sequence
  • >Solyc05g010660.3
    ATGGCCCCTGTAGTAAGCAGGAGTTTGACTTCTTCACCTATGGCTTCAGTGCCTTACAGTCCATCTTTTGTATTGGGGAGTGGTAGTACCAATAGGGTCTGTCTTAAAACTACTTTCTTGCCTAGGAATAATATCAAGAATGGATTTTTACAATCTGGGTTGAGGTGGAAACAGGATAAAAGAGATGTTGGAGTAGTGGTTAGGTGTGAGGCTTCTGCTGTAGCTGAAAAAGAAGCTTCTGAGACATCTGGGGAGACCCATGAATATCAGGCTGAGGTCAGTCGCCTAATGGACTTGATTGTTCACAGTCTATACAGTCACAAGGAGGTTTTCTTGCGAGAGCTTGTGAGGGTTAATTTTTTCCCAAATGCACTTGTTGAAGTCTTCATGATGCTTGGTAATTGTCTTATAGAATATCCTCTTTCCCTTTATGTTGTATTGCTAACTTCAGATTCTTCTTTGGACAGTAATGCTAGTGATGCCCTTGATAAGTTGAGATTTCTGAGTTTGACGGAGCCCTCTTTACTTGGAGATTCTAGTGAGCTAGAGATTCGCATCAAACCTGATCCAGACAATGGGACTGTTACTATAACGGATACTGGTATTGGAATGACAAAAGAAGAGCTCATAGACTGTCTTGGGACTATTGCCCAAAGTGGTACCTCAAAATTCTTGAAGGCACTTAAGGAAAACAAAGACCTGGGAGCTGACAATGGATTGATTGGTCAATTTGGTGTTGGTTTCTATTCTGCATTTCTTGTTGCGCAAAAGGTTGTAGTTTCCACGAAGAGCCCAAGGTCAGATAAACAGTTTGTTTGGGAGGCGGAGGCTGACAGTAGCTCATATGTCATCAGAGAGGAAACTAATCCTGAAAATCTTCTAACTCGAGGAACACAAATTACACTTTATTTGAGGGATGATGACAAATACGAGTATTGTGAGCCGAAGAAGATCCAAGATTTGGTGAAGAATTATTCACAGTTTGTATCTTTTCCAATTTACACGTGGCAGGAGAAATCAAGAACAATTGAGGAAGAGAAGAAAATGACAAAGAAGACCAAAACTGAGAAGTACTTTGATTGGGAGTTGACAAATGAGACAAAACCTATCTGGGGTGAGGTGGAGTTTAGAAGTGTCTTGTATATACCTGGAATGGCTCCTCTTAACAATGAAGATGTCGTAAATCCCAAGACAAAGAACATACGTTTGTATGTGAAACGTGTCTTTATTTCTGATGATTTTGATGGGGAGTTGAATAAAGTAATGAGATTTGTGTTAAGTGGTAGACAAAGAGAATGCATAGTTTTACATCCCAGCTTTAAGCAATACAAATTTAAATTGATGCCCAAGTGGCTTTGGGTGCCAGTTAAAGTGCAGTGCCCTTTTTTCCCAAATCAGCTGATGCTAGTTCTATGCATTTCAGTTTCCGAGGTTCGGATAATGAGAAAGAGACTAGTGAGAAAAACATTCGACATGATTCAGGATCTCTCTGAGAGTGAGAACAAGGAGGATTACAAAAAATTCTGGGAGAACTTCGGAAAATTTGTTAAGTTGGGATGTATTGAAGACACTGGTAATCACAAGCGGATAACCCCATTACTGAGATTCTTTTCTTCCAAAAGTGAAGAAGAATTGATAAGCTTAGATGACTATGTTGAGAACATGGGCGAAAATCAGAAAGCCATTTACTATTTGGCCACTGATAGCTTACAGAGTGCCAGGACTGCTCCTTTCTTGGAGAAGTTGGTCCAGAAGGGTATTGAGGTGTTGTACCTCGTTGAACCAATAGATGAGGTGGCTATCCAGAATTTACAAACATACAAGGAAAAGAAGTTTGTTGACATTAGCAAAGAGGACCTGGAGCTTGATGATGATGATGAGGTGAAAGACAGGGAAGCCAAGCAAGAGTACAATCTTCTATGTGATTGGATAAAACAACAGTTGGGTGATAAGGTGGCAAAAGTACAAGTTTCAAAGCGTTTAAGCTCATCACCATGTGTGCTTGTATCTGGAAAGTTCGGTTGGTCAGCCAACATGGAAAGATTGATGAGAGCACAAACCTTGGGAGACACTTCAACCCTGGAATTTATGAGAGGGAGAAGAATATTGGAGGTTAATCCCGATCATCCAATCATCAAAGACCTAAATGCTGCATGCAGAAAATCACCCGATAGTTCTGACGCCAAGCGGGCTGTGGAACTGTTGTTTGACACCGCATTGATCTCCAGTGGATTTACTCCTGATAGTCCCGCTGAGTTGGGTGGCAAGATCTACGAGATGATGGCAATGGCTCTTGGAGGAAGATGGGGACGATTCGAGGAAGAAGAGACAGAGGCATCAGAAGAAACATCAATTGAGTCAGATGCAAGCTCTGCTGAAGTGGTAGAGCCACAAGTCGTCGAGCCATCTGATTTTCCAACAAAAGATCCACTGAATATGTGGAGATACATATCAAAACAAGTTTATTCAAGAAAATTGAGGAATACCCATGATTCAGATTTTCTTGGTTTTGCTCAGTCTTTTAGAAAGACCAGACCTTTACAAGGTTTGTGTGAAGAAGGTTATAGAAATCCCAACTTGGGTGTGTCTCAAAGTTCAATCTTTTCTAGAGTTAATGGTAAAAGTAGGTGTTTAGATGGGATGTGTGAAGATAGTTGTAGGAATCACTACTTGGGTTTTTCTGAGAGTTCAATATTTTCTAGAGTTAAAGGAGATTTTCGAGTTTGTGGATCTTTAGGAGTTTTGAGGAGTTATGGTAGTGCTGCAGAGGCTATTGCTTCTACATCTGAAGAAGATATTGATGAAATTCAAGAATTAATTGAGGAAATGAACAAAGAAAATGAGGCTTTGAAGACCAATTTGCAGCCAAAGCAGCCGAAAACTGTAGGTGGGATGGGGATTGGGAAGTATAATTTGCTTAGGAGAAGACAGATTAAGGTAGAAACTGAAGCATGGGAAGATGCGGCTAAGGAGTATCAGGAGTTGCTGATGGATATGTGTGAGCAAAAGCTGGCACCAAACTTGCCGTATATTAAATCTTTGTTCTTGGGTTGGTTTGAGCCATTGAAGGATGCCATAGCTGCTGAACAGAAGTTGTGCGATGAAGGTAAGAACCGCGGGGCTTATGCACCCTTCTTTGATCAGTTGCCTGCTGAAATGATGGCTGTGATTACAATGCACAAGTTGATGGGGTTGCTAATGACGGGTGGAGGAAGTGGTAGTGCTAGAGTGGTGCAAGCTGCTTCCCACATTGGTGAAGCAATTGAGCACGAGGCCAGAATACATAGATTTTTGGAGAAGACCAAGAAAAATGCATTGGATGGGTCCTTGGAAGAAACAGCTGGTGATATTATGAAAGAAAGAGAGAGGCTGAGGAAAAAAGTAAAAATCTTGATGAAGAAACAGAAGCTGCAGCAGGTTAGAAAAATTGTGAAGCAGCAAGATGATGAAAAACCTTGGGGCCAGGACAACCTTGTCAAGGTTGGCTGCAGATTGATTCAGATATTAATAGAAACCGCCTATATACAGCCTCCAAATGACCAGTTAGAGGATTGTCCCCCAGATATTCGCCCAGCATTTATGCACACCCTCAAAACTGTAGATACAGTGAAAGGTAGCAGAAGATATGGTGTGATTCAATGTGATCCACTTGTTCGTAAAGGCTTGGATAAAACTGCTAGACATATGGTGATTCCATATATGCCGATGCTGGTTCCTCCACAGAATTGGTCAGGGTTAGTATGCAGATCTTCTCTTGTATTCCAGTATGACAGAGGTGCATACTTATTTTTACCATCATACATTATGCGGACACATGGAGCAAAACAGCAGCGTGAAGCAGTTAAAAGAGTTCCAAAGAAGCAGTTGGAACCTGTATTCCAGGCACTTGACACTCTTGGTAATACCAAATGGAGGGTGAATAAAAGGGTACTTGGCATATTAGACAGAATATGGGCTAGTGGAGGCCGTCTTGCTGATTTAGTCGACAGGGAAGATGTACCTTTACCAGAAGAGCCAGACACCGAAAATGAAGAAGAAATCAAGAAATGGAAGTGGAAAGTTAAAGCTGCAAAAAAAGAGAACTGCGAGAGGCATTCTCAGCGGTGTGATATTGAACTCAAATTAGCTGTTGCGCGGAAAATGAAGGATGAAGAGGGTTTTTATTATCCACATAACCTTGATTTTCGTGGTCGTGCATACCCCATGCACCCGTATTTGAACCATCTTGGTTCTGATTTATGCCGTGGCATCCTCGAATTCTCTGAGGGGCGCCCACTTGGAAAGTCTGGTTTACGCTGGCTGAAGATACATCTAGCAAATGTATATGGTGGTGGTGTTGATAAGTTATCATGTGAAGGTCGTGCAGCATTCAGTGAAAACCATGTGGAGGATATTTTTGACTCTGCAGACAGGCCACTGGAAGGAAGGCGTTGGTGGTTGGGGGCGGAAGATCCCTTTCAATGCTTAGCAACATGTATTAGTATATCTGAAGCATTGAGAAGCCCTTCTCCAGAGACCTCTATATCTCATATGCCCATTCACCAGGATGGGTCGTGCAATGGGCTACAACATTATGCTGCCCTTGGAAGGGATAAGTTAGGAGCAGCTGCAGTCAATCTTGTTGCTGGAGACAAGCCTGCTGATGTATACTCTGGAATTGCTGCTCGAGTTCTTGATATTATGAAGAGAGATGCAGATAAAGATCCTGCAACTGATCCAAATGTGATGCGTGCCAGGCTGTTAATCAACCAGGTGGACAGAAAGTTGGTCAAGCAAACAGTGATGACATCAGTGTACGGTGTCACGTATATTGGTGCTCGTGACCAAATTAAGAGAAGATTGAAGGAGCGTGGTGCCATTGAAGATGATAATGAGTTGTTTGCAGCAGCGTGTTATGCGGCAAAAACCACCTTGACTGCCTTAGGAGAGATGTTTGAAGCAGCCAGAAGTATCATGAGTTGGCTTGGAGATTGTGCAAAGATTATAGCCATGGAAAACCAGCCTGTACGATGGACTACTCCACTTGGACTTCCTGTTGTGCAACCTTACCGCAAATTAGGAAGGCATCTTGTAATGGTTAAGCGACAGAGAACAGCATTTCCTCCAAATTTTGTTCACTCTCTTGATGGTTCCCACATGATGATGACTGCCATTGCCTGCAAAGAAGCTGGCTTAAGTTTTGCAGGAGTGCATGATTCATACTGGACACATGCATCTGATGTTGACCAAATGAACAAGATTTTGAGAGAAAAATTTGTTGAACTCTACGACGCACCCATACTGGAAAATTTATTGGAGAGTTTTCAGCAGTCGTTCCCTGACTTGCAGTTCCCCCCGTTACCGGAGCGGGGTGATTTCGATCTAAGAGAAGTTCTTGAATCTCCCTATTTTTTCAACTAG
Protein Sequence
  • >Solyc05g010660.3
    MAPVVSRSLTSSPMASVPYSPSFVLGSGSTNRVCLKTTFLPRNNIKNGFLQSGLRWKQDKRDVGVVVRCEASAVAEKEASETSGETHEYQAEVSRLMDLIVHSLYSHKEVFLRELVRVNFFPNALVEVFMMLGNCLIEYPLSLYVVLLTSDSSLDSNASDALDKLRFLSLTEPSLLGDSSELEIRIKPDPDNGTVTITDTGIGMTKEELIDCLGTIAQSGTSKFLKALKENKDLGADNGLIGQFGVGFYSAFLVAQKVVVSTKSPRSDKQFVWEAEADSSSYVIREETNPENLLTRGTQITLYLRDDDKYEYCEPKKIQDLVKNYSQFVSFPIYTWQEKSRTIEEEKKMTKKTKTEKYFDWELTNETKPIWGEVEFRSVLYIPGMAPLNNEDVVNPKTKNIRLYVKRVFISDDFDGELNKVMRFVLSGRQRECIVLHPSFKQYKFKLMPKWLWVPVKVQCPFFPNQLMLVLCISVSEVRIMRKRLVRKTFDMIQDLSESENKEDYKKFWENFGKFVKLGCIEDTGNHKRITPLLRFFSSKSEEELISLDDYVENMGENQKAIYYLATDSLQSARTAPFLEKLVQKGIEVLYLVEPIDEVAIQNLQTYKEKKFVDISKEDLELDDDDEVKDREAKQEYNLLCDWIKQQLGDKVAKVQVSKRLSSSPCVLVSGKFGWSANMERLMRAQTLGDTSTLEFMRGRRILEVNPDHPIIKDLNAACRKSPDSSDAKRAVELLFDTALISSGFTPDSPAELGGKIYEMMAMALGGRWGRFEEEETEASEETSIESDASSAEVVEPQVVEPSDFPTKDPLNMWRYISKQVYSRKLRNTHDSDFLGFAQSFRKTRPLQGLCEEGYRNPNLGVSQSSIFSRVNGKSRCLDGMCEDSCRNHYLGFSESSIFSRVKGDFRVCGSLGVLRSYGSAAEAIASTSEEDIDEIQELIEEMNKENEALKTNLQPKQPKTVGGMGIGKYNLLRRRQIKVETEAWEDAAKEYQELLMDMCEQKLAPNLPYIKSLFLGWFEPLKDAIAAEQKLCDEGKNRGAYAPFFDQLPAEMMAVITMHKLMGLLMTGGGSGSARVVQAASHIGEAIEHEARIHRFLEKTKKNALDGSLEETAGDIMKERERLRKKVKILMKKQKLQQVRKIVKQQDDEKPWGQDNLVKVGCRLIQILIETAYIQPPNDQLEDCPPDIRPAFMHTLKTVDTVKGSRRYGVIQCDPLVRKGLDKTARHMVIPYMPMLVPPQNWSGLVCRSSLVFQYDRGAYLFLPSYIMRTHGAKQQREAVKRVPKKQLEPVFQALDTLGNTKWRVNKRVLGILDRIWASGGRLADLVDREDVPLPEEPDTENEEEIKKWKWKVKAAKKENCERHSQRCDIELKLAVARKMKDEEGFYYPHNLDFRGRAYPMHPYLNHLGSDLCRGILEFSEGRPLGKSGLRWLKIHLANVYGGGVDKLSCEGRAAFSENHVEDIFDSADRPLEGRRWWLGAEDPFQCLATCISISEALRSPSPETSISHMPIHQDGSCNGLQHYAALGRDKLGAAAVNLVAGDKPADVYSGIAARVLDIMKRDADKDPATDPNVMRARLLINQVDRKLVKQTVMTSVYGVTYIGARDQIKRRLKERGAIEDDNELFAAACYAAKTTLTALGEMFEAARSIMSWLGDCAKIIAMENQPVRWTTPLGLPVVQPYRKLGRHLVMVKRQRTAFPPNFVHSLDGSHMMMTAIACKEAGLSFAGVHDSYWTHASDVDQMNKILREKFVELYDAPILENLLESFQQSFPDLQFPPLPERGDFDLREVLESPYFFN