Information report for STD1
Gene Details
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Functional Descriptions
- Therefore, these results indicate that the MT-dependent ATPase activity is indispensible for STD1 in regulating normal cell division and organ development.
- In the STD1 mutant, the substitution of Val-40-Glu in the motor domain of STD1 significantly reduced its MT-dependent ATPase activity.
- Map-based cloning revealed that STD1 encodes a phragmoplast-associated kinesin-related protein, a homolog of the Arabidopsis thaliana PAKRP2, and is mainly expressed in the actively dividing tissues.
Functional Keywords
Literature and News
Gene Resources
- UniProt: A0A1L2C1C5
- EMBL: KP899623
- AlphaFoldDB: A0A1L2C1C5
- InterPro: IPR001752, IPR027417, IPR027640
- PANTHER: PTHR24115, PTHR24115:SF416
- SUPFAM: SSF52540
- PROSITE: PS50067
- Gene3D: 3.40.850.10
- SWISS-MODEL: A0A1L2C1C5
Homologs
- Actinidia chinensis: Achn358341
- Arabidopsis thaliana: AT2G28620, AT3G44730, AT3G44050, AT3G17360, AT3G12020, AT3G19050, AT3G50240, AT3G23670, AT3G43210, AT3G16630, AT1G01950
- Brassica rapa: XP_009122937.1
- Daucus carota: DCAR_000615
- Glycine max: GmMs1
Sequences
cDNA Sequence
- >LOC_Os02g56540.1
ATGACGACCCCGCTCAAGACGCCCGCATCCAAGCACCGCCTCCACTTCCCGGCCATGACGCCCAGGAACGGCGGCGGCGGGGGCGCCGCGGCGGGCGGCACGGAGCACCCGGTGGAGGTGATCGGCCGCATCCGGAACCTCGCCGCGGGGGCGGGCGGCGCGTCGGCGCTGGAGATCGCGGGCGGGGGCACGGCCGTGCGCGTCCGCGGCGACGCCGGCGGGTGCCGCGACTTCACCCTCGACGGGGTCTCGGTCTCCGAGGAGGAGGATCTGGAGGGGTTCTACCGCCGCTTCGTGCGGTCGCGGATCGAGGGGGTGCGGGTGGGCGCCAAGTGCACCGTCATGGTGTACGGCCCCACGGGCTCCGGGAAGAGCCACACCATGTTCGGCTGCGCCAAGCAGCCCGGGATCGTGTACCGCGCTCTCCGGGATATACTGGAAGGAGGAGGAGGAGGAGGGGGAGGTGTCTCTGGTGGTGGGGGTGAAGGCGATGGCCGTGGCGAGGATGACGCCGGGTTCGGGATGGGGCTGTTCGTGCAGGTTGCCGTGCTCGAGATCTACAACGAGGAGATCTACGATTTGCTCGTGGGGAGCGGAGCGAATGCTAAAGGAAACGCCCCCAAGGCGAGGCTAGAAGTAATGGGGAAGAAAGCCAAGAATGCAACCTACATATCTGGAAATGAAGCCGGGAAGATATCAAGAGAAGTTGCAAAAGTGGAAAAGAGGCGTATTGTCAAGAGCACGCTTTGTAATGAGAGGAGTTCCCGGAGCCACTGCATGATAATTTTGGATGTTCCATCGGTGGGGGGAAGGCTCATGCTTGTGGATATGGCTGGTTCTGAGAACATAGAAGCAGCAGGCCAAACTGGATTTGAAGCCAAAATGCAGACTGCAAAGATTAACCAAGGGAACACGGCTTTGAAACGAGTGGTTGAGTCCATTGCTAATGGTGACTCCCATGTTCCATTTCGAGACAGCAAGCTCACAATGCTCTTGCAGGATTCATTTGAGGATGACAAATCAAAAATCTTGATGATTCTCTGTGCAAGTCCTGACCCAAAGGAATTGCACAAGACAGTTTCTACATTGGAGTATGGTGCTAAAGCGAAGTGCATTATCCGTGCTGCCCACGCTGCAACCCCAAGGGACAAAATGAGCTCTGAAGAGTCATCTACAATGCTCAATTCAAGAATTGTCGCGATGAATCAGTTCATCTACAATCTCCAGAAAGAGAACAAGCTAAGGGAGAAAGAGCGCAATGAGGCCCAGAGTGTGCTAAGGAAAAAGGAAGAGGAGCTTGCACAGCTCAGGGCGAAGCTCAAGCTGATTGAAGGTCAGGGAGCAGCTGCAAAGGAGGAAGAGATTAACTCAAAGGTCATGGAGAAGACCCAGAGTTTGAGGACTGAGCTCATGAAGATGGAAGAGAAAATGCTTAGGCAGCAGCAAGAACTCCTTGCTTTGCAACAGCGGCTGAAGGAGGTTGAGCGTGAAAAGCCTGTGCAGCAGGATATCATCGGAGGTAGATTGCTGGCACGTCTGTCAGAGATGTCCGCTAGGGCGGATCAGTCCATGTCAATGGATATGTCCATTGATTTTGATATGGGAGATCAGCCAGCTGCGCAAGACGTGAAGGTGATCAAGGAGGATACTCGCAAGCAGGGCCAGATATGGAGCCAAGCAAATACTGCAGGCTCTTGCACCAGCGCTGTGGAGCAAGAAGATGATGTTGTGAGGCTGTCTGGGTACCCAGAAAAGGTGGTCCTGAGCACTGTCTTTGAGGAGGGAGATGAAGAAGAAGATAAAGACAGTGGCGTTGAAGAGGAAGTGTGCAAGGAAGTTGTCGAAGAGAGCTATGTAATGCAACAGCCCCTTGCAGAGCCTGAAGACCCTGCCACAAGGAATAACCGGATTCAGAACATTTTCAGGCTTTGTGGGAATCACCGAGAATTAGCCAAGAAGGTCCAGTCACCAGCAAAGAAGGCGTTCGGAGATGAGAACAATGAGCCTGCGAAGCAAACATTCGGAGATGAGAACAAGCAGCAGCCTGCGAAGCGAGTGTTTGGAGATGAGAACAAGGACCCTTCAGCATGGGGAGCGATAGAACCTCCAATGTGCGACGTCAGAGTGACCGACAGTCCAGTATCCTCGCAGCTTTCACCTATCGTCTGCCAAGTTGTGGACGATGCCAAGTTGCCCGTGTCGGAGCAGCTGAAATCATGCAATGCTTTGGAGGCAGCTGATGAGAACAAGGAGAACAATGCTTCTGGACAAGACGGCCTGCTTGAAGTCTACATCAAATGGGAGTCCGGCCATCTGATAAAAGGTCTGAAATTGCTGAGCAACTCGTGTCTTTCTGACCTGAGAAAGCTCTTGGAGGATCACTTCGAAGAAGCAGGGAGCAAGCAGCAGCAGCAGTTCACCTTCCTCCTTCTCGGGGATCCTTCTGGCGCACCGGTGTCCAGAGAGAAGGAAGCAGGGGTGCCGATAAGCAAGCTGCCAAGCTGCAACAACCAGCCGAACAGCTACCTAGCCTGCTTGCGCGCTGTCAAGAAGCAGCCGGCGACGGAGCAGATGCCGTTCAGCCCACTGGAGAGCAAGCTCAATTCGGCACTGAACGACGTGCACCTCGCCGCCCTCTCGCCGAAGGTCAACCCAATGAGCCCTAACTACATCCGTGAGCTCAGAGCTTGAGCTCTTCCAACCTGAAGAAGATCGGTTAGATCTTTCGTAGGTTTGTCGCCGGTGGCATTTCAACGGTGGCAACGATGTATCATCATTTATCTATAGTCTGGCTCTGTTCTGTCTGTAAATTTGCTAGCTATAGGCTGGTTCTGCAAACCTAAACTCTGAAGTGTAACCATGTTACACGAGTGGCTGTGGCTAGACACTGCGGGTCATGCGTCTGTGGCCAACAAGGTGAATATGAATATGATTCGATTCGTTTACTTCTGCTGTGCTGCTGTTCTGTCT
CDS Sequence
- >LOC_Os02g56540.1
ATGACGACCCCGCTCAAGACGCCCGCATCCAAGCACCGCCTCCACTTCCCGGCCATGACGCCCAGGAACGGCGGCGGCGGGGGCGCCGCGGCGGGCGGCACGGAGCACCCGGTGGAGGTGATCGGCCGCATCCGGAACCTCGCCGCGGGGGCGGGCGGCGCGTCGGCGCTGGAGATCGCGGGCGGGGGCACGGCCGTGCGCGTCCGCGGCGACGCCGGCGGGTGCCGCGACTTCACCCTCGACGGGGTCTCGGTCTCCGAGGAGGAGGATCTGGAGGGGTTCTACCGCCGCTTCGTGCGGTCGCGGATCGAGGGGGTGCGGGTGGGCGCCAAGTGCACCGTCATGGTGTACGGCCCCACGGGCTCCGGGAAGAGCCACACCATGTTCGGCTGCGCCAAGCAGCCCGGGATCGTGTACCGCGCTCTCCGGGATATACTGGAAGGAGGAGGAGGAGGAGGGGGAGGTGTCTCTGGTGGTGGGGGTGAAGGCGATGGCCGTGGCGAGGATGACGCCGGGTTCGGGATGGGGCTGTTCGTGCAGGTTGCCGTGCTCGAGATCTACAACGAGGAGATCTACGATTTGCTCGTGGGGAGCGGAGCGAATGCTAAAGGAAACGCCCCCAAGGCGAGGCTAGAAGTAATGGGGAAGAAAGCCAAGAATGCAACCTACATATCTGGAAATGAAGCCGGGAAGATATCAAGAGAAGTTGCAAAAGTGGAAAAGAGGCGTATTGTCAAGAGCACGCTTTGTAATGAGAGGAGTTCCCGGAGCCACTGCATGATAATTTTGGATGTTCCATCGGTGGGGGGAAGGCTCATGCTTGTGGATATGGCTGGTTCTGAGAACATAGAAGCAGCAGGCCAAACTGGATTTGAAGCCAAAATGCAGACTGCAAAGATTAACCAAGGGAACACGGCTTTGAAACGAGTGGTTGAGTCCATTGCTAATGGTGACTCCCATGTTCCATTTCGAGACAGCAAGCTCACAATGCTCTTGCAGGATTCATTTGAGGATGACAAATCAAAAATCTTGATGATTCTCTGTGCAAGTCCTGACCCAAAGGAATTGCACAAGACAGTTTCTACATTGGAGTATGGTGCTAAAGCGAAGTGCATTATCCGTGCTGCCCACGCTGCAACCCCAAGGGACAAAATGAGCTCTGAAGAGTCATCTACAATGCTCAATTCAAGAATTGTCGCGATGAATCAGTTCATCTACAATCTCCAGAAAGAGAACAAGCTAAGGGAGAAAGAGCGCAATGAGGCCCAGAGTGTGCTAAGGAAAAAGGAAGAGGAGCTTGCACAGCTCAGGGCGAAGCTCAAGCTGATTGAAGGTCAGGGAGCAGCTGCAAAGGAGGAAGAGATTAACTCAAAGGTCATGGAGAAGACCCAGAGTTTGAGGACTGAGCTCATGAAGATGGAAGAGAAAATGCTTAGGCAGCAGCAAGAACTCCTTGCTTTGCAACAGCGGCTGAAGGAGGTTGAGCGTGAAAAGCCTGTGCAGCAGGATATCATCGGAGGTAGATTGCTGGCACGTCTGTCAGAGATGTCCGCTAGGGCGGATCAGTCCATGTCAATGGATATGTCCATTGATTTTGATATGGGAGATCAGCCAGCTGCGCAAGACGTGAAGGTGATCAAGGAGGATACTCGCAAGCAGGGCCAGATATGGAGCCAAGCAAATACTGCAGGCTCTTGCACCAGCGCTGTGGAGCAAGAAGATGATGTTGTGAGGCTGTCTGGGTACCCAGAAAAGGTGGTCCTGAGCACTGTCTTTGAGGAGGGAGATGAAGAAGAAGATAAAGACAGTGGCGTTGAAGAGGAAGTGTGCAAGGAAGTTGTCGAAGAGAGCTATGTAATGCAACAGCCCCTTGCAGAGCCTGAAGACCCTGCCACAAGGAATAACCGGATTCAGAACATTTTCAGGCTTTGTGGGAATCACCGAGAATTAGCCAAGAAGGTCCAGTCACCAGCAAAGAAGGCGTTCGGAGATGAGAACAATGAGCCTGCGAAGCAAACATTCGGAGATGAGAACAAGCAGCAGCCTGCGAAGCGAGTGTTTGGAGATGAGAACAAGGACCCTTCAGCATGGGGAGCGATAGAACCTCCAATGTGCGACGTCAGAGTGACCGACAGTCCAGTATCCTCGCAGCTTTCACCTATCGTCTGCCAAGTTGTGGACGATGCCAAGTTGCCCGTGTCGGAGCAGCTGAAATCATGCAATGCTTTGGAGGCAGCTGATGAGAACAAGGAGAACAATGCTTCTGGACAAGACGGCCTGCTTGAAGTCTACATCAAATGGGAGTCCGGCCATCTGATAAAAGGTCTGAAATTGCTGAGCAACTCGTGTCTTTCTGACCTGAGAAAGCTCTTGGAGGATCACTTCGAAGAAGCAGGGAGCAAGCAGCAGCAGCAGTTCACCTTCCTCCTTCTCGGGGATCCTTCTGGCGCACCGGTGTCCAGAGAGAAGGAAGCAGGGGTGCCGATAAGCAAGCTGCCAAGCTGCAACAACCAGCCGAACAGCTACCTAGCCTGCTTGCGCGCTGTCAAGAAGCAGCCGGCGACGGAGCAGATGCCGTTCAGCCCACTGGAGAGCAAGCTCAATTCGGCACTGAACGACGTGCACCTCGCCGCCCTCTCGCCGAAGGTCAACCCAATGAGCCCTAACTACATCCGTGAGCTCAGAGCTTGA
Protein Sequence
- >LOC_Os02g56540.1
MTTPLKTPASKHRLHFPAMTPRNGGGGGAAAGGTEHPVEVIGRIRNLAAGAGGASALEIAGGGTAVRVRGDAGGCRDFTLDGVSVSEEEDLEGFYRRFVRSRIEGVRVGAKCTVMVYGPTGSGKSHTMFGCAKQPGIVYRALRDILEGGGGGGGGVSGGGGEGDGRGEDDAGFGMGLFVQVAVLEIYNEEIYDLLVGSGANAKGNAPKARLEVMGKKAKNATYISGNEAGKISREVAKVEKRRIVKSTLCNERSSRSHCMIILDVPSVGGRLMLVDMAGSENIEAAGQTGFEAKMQTAKINQGNTALKRVVESIANGDSHVPFRDSKLTMLLQDSFEDDKSKILMILCASPDPKELHKTVSTLEYGAKAKCIIRAAHAATPRDKMSSEESSTMLNSRIVAMNQFIYNLQKENKLREKERNEAQSVLRKKEEELAQLRAKLKLIEGQGAAAKEEEINSKVMEKTQSLRTELMKMEEKMLRQQQELLALQQRLKEVEREKPVQQDIIGGRLLARLSEMSARADQSMSMDMSIDFDMGDQPAAQDVKVIKEDTRKQGQIWSQANTAGSCTSAVEQEDDVVRLSGYPEKVVLSTVFEEGDEEEDKDSGVEEEVCKEVVEESYVMQQPLAEPEDPATRNNRIQNIFRLCGNHRELAKKVQSPAKKAFGDENNEPAKQTFGDENKQQPAKRVFGDENKDPSAWGAIEPPMCDVRVTDSPVSSQLSPIVCQVVDDAKLPVSEQLKSCNALEAADENKENNASGQDGLLEVYIKWESGHLIKGLKLLSNSCLSDLRKLLEDHFEEAGSKQQQQFTFLLLGDPSGAPVSREKEAGVPISKLPSCNNQPNSYLACLRAVKKQPATEQMPFSPLESKLNSALNDVHLAALSPKVNPMSPNYIRELRA*