mrna09346.1-v1.0-hybrid

Gene Details:

Gene ID: mrna09346.1-v1.0-hybrid
Gene Family: NF-X1 Family
Description: NF-X1 Family protein
Species: Fragaria vesca
Source: NF-X1 family gene from PlantTFDB

Protein Features:

SuperFamily: SSF57850
PROSITE profile: PS50016
PROSITE pattern: PS01359
PROSITE profile: PS50089
SMART: SM00438
Pfam: PF01422
Pfam: PF01424
Gene3D: G3DSA:3.30.70.330
InterPro: IPR019787 IPR019786 IPR001841 IPR000967 IPR001374 IPR012677

Annotation Proteins:

Refseq: XP_011464477.1 — PREDICTED: LOW QUALITY PROTEIN: NF-X1-type zinc finger protein NFXL1
Swissprot: Q9SY59 — NFXL1_ARATH; NF-X1-type zinc finger protein NFXL1
TrEMBL: A0A2I4DI79 — A0A2I4DI79_JUGRE; Potassium transporter
STRING: XP_004299509.1 — (Fragaria vesca)

Gene Ontology:

GO:0006355 — Biological Process — regulation of transcription, DNA-templated
GO:0009642 — Biological Process — response to light intensity
GO:0009651 — Biological Process — response to salt stress
GO:0009697 — Biological Process — salicylic acid biosynthetic process
GO:0010188 — Biological Process — response to microbial phytotoxin
GO:0010310 — Biological Process — regulation of hydrogen peroxide metabolic process
GO:0042742 — Biological Process — defense response to bacterium
GO:0071805 — Biological Process — potassium ion transmembrane transport
GO:0005634 — Cellular Component — nucleus
GO:0016020 — Cellular Component — membrane
GO:0000166 — Molecular Function — nucleotide binding
GO:0003676 — Molecular Function — nucleic acid binding
GO:0003700 — Molecular Function — transcription factor activity, sequence-specific DNA binding
GO:0005515 — Molecular Function — protein binding
GO:0008270 — Molecular Function — zinc ion binding
GO:0015079 — Molecular Function — potassium ion transmembrane transporter activity

Family Introduction:

The human NF-X1 protein and homologous proteins in eukaryotes represent a class of transcription factors which are characterised by NF-X1 type zinc finger motifs. The Arabidopsis genome encodes two NF-X1 homologs, which we termed AtNFXL1 and AtNFXL2.
The Arabidopsis AtNFXL1 and AtNFXL2 proteins are characterized by NF-X1 type zinc fingers, which potentially mediate DNA binding, and PHD finger motifs, which potentially mediate protein interactions. The AtNFXL1 protein is part of a regulatory mechanism, which improves the physiological status of plants and supports growth and survival under stress.

Literature:

The AtNFXL1 gene encodes a NF-X1 type zinc finger protein required for growth under salt stress. DOI: 10.1016/j.febslet.2006.07.079 ; PMID: 16905136

Sequences:

CDS Sequence:

>mrna09346.1-v1.0-hybrid|Fragaria_vesca|NF-X1|mrna09346.1-v1.0-hybrid
ATGGACTGGGTGGGTTTCTGCTTGTTTGGTCTCCTCAACATTTCTCATCTTCCAGATGATGTGATTAGCTTCCTAGCTTCGGGTTGTATCTTCATGCGTGCTTGTGGGCTTCCACCGGTATGGAAAGGTGCCGCCGATGTTTCGAGAGTGTTGGACTGGGTTTGGGCCGCTCCGCACCTCTTCTGGCAAGGTGTTGGCTGTGGTACCTTGGCTAGTTCAAGTGCATGCGGTTTAGGTGATCTAGCCTTCGTCGGCGACAACATTGGCGTGGTGAAACGGGGAGGAAATAGGACTTGGGTTAAGGTTAAAACCGTCGATTGTGGATTGATTGGTTTGATTTGTGACTGCAGTTTGTATTCGTTTTCGTTTTCTGTGGATCAATTTGAGTTGAGCAAACTGTTGGGGGACAGGAGCTGTGAGGGTTTGGTTGGTTCGGTGAATATGGCTTCTCAGGTCCGGGGTGAGCGTAGGGATAACAACAGGTCCAGGAATCCTTCTCAGCCTCGTTGGGTGCCGAGAGGCTCCAACCCTACCGCCGCTGCCGTGAACCCGCCTCCTCCGGGATTCAGTTTGAACTTACAGAATGGGAATGCCAACGGCCCTGCGGCAGGAGAGAGTCGGCAGCATAGAGGAGGACATGGTGGAAATGGAGGACAGCCCAATCATGTTTCGGCACCAGGAGAGAGTCGGCAGCATAGAGGAGGGTATAATGGAAATGGTGGGCAGCTTAACCAGGTGTCGGGACCATCAGAGAGTCGGCAGCAAAGAGGGGGGCATAATGGAAATGGAGGGCAGTCTAATTACAGCTTCACACCGTCAGATGGTCGGCAGCATAGAGGAGGACATAATGGAATTGTTGGGCAGTTCAATCACAGCTCTGTGCCATCAGAGAGTCGGCAGCACAGAGGAGGACACAATGGGAATGGAGGGCAGTCTAATCAAAGCTCCACATTATCGGAGAATCGGGAGCACAGAGGAGGACATCATGGTTACAGGGGTAATGTGGTTCGGCCGGTGAATCATAGAAGGGAGAGGGAAAAGAGTGAGAGTCAGGAGGGGATGGGAATGAAGGACTCTAGTTTGCCGCAGCTTGTGCAAGAGATTCAGGATAAACTGACTAAGGGTACTGTTGAGTGCATGATTTGTTATGATATGGTGAGGAGGTCTGCACCTGTATGGTCGTGCTCAAGCTGTTACTCGATTTTCCATCTGAATTGCATCAAGAAATGGGCTCGAGCTCCTACCTCTATTGATATGTCTGCAGGGAAGAATCAGGGTTTTAATTGGCGGTGTCCAGGATGTCAGTCTGTACAGCTCACATCGTCAAAGGAGATTCGCTATGTGTGTTTTTGCGGTAAGCGGACAGACCCACCTTCGGATTTGTATTTGACACCACATTCATGTGGAGAACATTGTGGGAAGCCACTGGAGAAGGAGGTTGCAGGAAGAGGAATAAGTAAGGATGATCTTTGCCCTCATATGTGTGTCTTGCAGTGCCACCCGGGTCCATGCCCTCCTTGTAAAGCATTTGCACCGCCGAGGTTATGCCCTTGTGGAAAGAAAACAATAACAACAAGATGCTCAGATCGGACTTCTGTTCTGACATGTGGCAATCAATGTAGTAAGCTTCTTGATTGTGGGCGTCACCGCTGTGAGCGGAAGTGCCATGTGGGTCCTTGTGATCCTTGTCAGGTGCCATTCAATGCTTCTTGCTTTTGCCTGAAAAAGGTGGAGGTTGTTCTATGTGAAGAGATGACAGTAAAGGGAGAGGTAAAAGCAGAGGATGGTGTTTTTTCTTGCAGTTCTAGTTGTTGTAAGAAGCTTAGCTGTGGCAATCATGTTTGCAGCGAAATTTGTCATCCAGGCCCTTGTGGAGAGTGCAATTTAATGCCACAGAATGTTAAGACATGCCATTGTGGGAAAACAAGCTTGCAGGAGGAACGCCAGAGTTGTTTGGATCCGATTCCAACTTGCTCACAAATATGTGAGAAGACTCTCCCTTGTGGGGTGCACCAGTGTCAACAGATATGCCATACTGGTGATTGCCCCCCTTGTTTGGTAAAAGTTACCCAAAAGTGCCGCTGTGAATCAACTTCTCGGAATGTGGAATGCTGTAATACAACGATGGAGAATCAGAAATTTACCTGTGATAAGCCTTGTGGACGGAAGAAGAATTGTGGAAGGCACCGTTGTAGTGAAAGGTGCTGTCCTCTTTCTAATTCAAATAATCGACTCTCAGGGGATTGGGATCCTCACTTGTGCTCTATGCCCTGTGGGAAGAAATTAAGGTGCGGGCAGCATTCTTGTGAATCTCTGTGTCACAGTGGCCACTGTCCTCCCTGCCTTGATACAATCTTCACTGACTTGACATGTGCATGTGGGAGAACTTCAATCCCTCCTCCATTGCCCTGTGGTACACCTCCTCCATCATGTCAGCTTCCTTGTTCGGTGCCTCAGCCTTGCGGACATTCATCTTCTCACAGCTGCCACTTTGGAGACTGCCCACCTTGTTCAGTGCCTGTGCCAAAGGAGTGCATTGGTGGTCATGTGGTTCTCAGGAACATTCCTTGTGGGTCGAAGGACATTAAATGTAACAAGTCCTGTGGGAAGATAAGGCAATGTGGTATGCATGCTTGTGGTAGAACATGTCACCCACCGCCTTGCGAGTCTTCCTCGTCAGCGGAAGTCGGCTCAAAATCTTCTTGTGGACAGATATGTGGTGCTCCTAGGAGGGATTGCAGGCACACATGTACTGCACCTTGTCACCCTTATGCTTCCTGTCCGGACGCCAGATGTGATTTCCTTGTGACAATCACGTGTTCTTGTGGCCGGATAACAGCAAATGTTCCTTGCGATTCTGGTGGCAGCAATGCTAGTTTTAATGCTGGCACTGTCTTTGAAGCTTCCATTATTCAAAAGTTGCCAGTACCACTGCAACCAGTAGAAGCCACCAACAAGAAGGTCCCACTTGGACAGAGGAAGCTCATGTGTGATGATGAATGTGCCAAGTTGGAGCGGAAACGTGTTCTTGCAGATGCTTTTGATATAGTTCCTCCAAATTTGGATGCACTCCATTTTGGTGAGACTAATGTTACTTCTGAGTTGCTTTCGGACCTTTTTAGGCGTGATCCAAAGTGGGTTTTATCGGTGGAGGAGAGATGCAAACAGTTGGTGCTTGGAAAGAGCAAAGGTGCTACAAGTGGCCTCCGGGTCCATGTCTTTTGTCCAATGCTGAAGGAAAAGAGAGATGTGGTTAGGGTGATTGCTGACAGGTGGAAGCTTGCTGTTCAAGCTGCTGGCTGGGAGCCCAAGCGTTTTATTGTGGTTCATGCTACTCCTAAATCCAAAGTCCCAGCCAGGGTGCTTGGGGTTAAGGGTACCACCACAGTAAACACATCCCAGCCTCCAGCTTTTGATCATTTAGTTGACATGGATCCCAGGCTTGTAGTTTCTTTCCCAGATCTTCCCAGGGATGCAGATATAAGTGCATTGGTTTTGAGGTTTGGTGGTGAATGTGAGCTTGTCTGGTTGAATGACAAGAACGCATTGGCTGTATTTAATGATCCTGCTCGAGCCGCAACTGCAATGAGGAGGTTGGATAATGGTACACTCTATCATGGGGCTATTGCTGTTTTGTCTGTGGCTTCATCTGGTTCTAATGCGTGGGGTGGAGTGGGAATAGCCAAGGAAGGAGCCTATACAGCACTGAAGGGTAATGCGTGGAAGAAGGCTGTTATTCGGGAGTCCTCTTGGAGAGAAGATTCATGGGGTGATGAAGAGTTGTCAGGTGGTTCTGCAGATGTCCAGGCATCTGTGTGGAAAAAGGAAGCTCCAATTGCTGCCTCATTAAACCGCTGGAGTGTACTTGATAGTGAAGTGCCTTTGGGATCATCTTCTGTATCGCCCACAGTAGAGGACTCTGGAAAGCATACTTCTGCTGGTGTATCTCCCACAGTAGAGGACTCTGGAAAGCATACCACTGCTGGTTTAATTTCTATGGTGGAATCAAATGCTAGTGGTTCAACTCCATCAAATGCAAGCAGTTCGACTTCCATGGGGCAGCTTGGAGGTTCTATTGCAGAAACATCTGAAGTGCCAAACATGGATTGGGATTCTCAGCTCAGTTCTGCCACTTCCTCTAATCAGTTGAAGAGCCTTGGAGTGTTATATGGTCAAATGAGTACTGCGCCCTTATATGTCTTTGGGACAATTCATGCAAAAGATATCAAATCGGAGGATACAGTTTATGAACTATTCTCCTTCATTTTCTGGACTATGAGCATCATTTCTTTTCTGAAGTACGCCTGTATAGTATTACGAGCTGATGATAATGGAGAAGGTGGTACTTTCGCTCTGTACTCACTCTTGTGTAGACATGCCAAAGTGGGTTTGCTTCCAAATGACAAAAGTTCCAATGAGGTTATGCATTATGAGAGGGAAATACCTTTCTGGATTAAGGTGGAATCGAGGGCTAAAAGAGCCATTGAAAAACATAAGAGTAGTCACTATGTCATGTTGGTCCTGGCTCTGTTAGGTTCCTGCATGACAATCGGCATTGGGGTGCTTACCCCAGCTCTTTCGGTCTATTCAGCTTCAACAGGTGTTCAAAGATCACTGTCAGATATGGCCAAAAAATTTTCATCTTCGGAAAATAAACAAGATTCACTAGCAAAAGCTTTTAAAGATTATGTACCAGTTCCTTTGGCATCTGCTATATTGGTGTGCCTCTTCACGCTCCAGCATTACGGGACACGTAAAATTGGGTTTATGTTTGCTCCGATTATCATTATTTGGCTGATATGTATTGGTGGAGTGGGTATATATAATATTTTCTACTGGGACAGAAAAATTATCCATGCAATCTCTCCAGTATACATGTACAGATTTGTTAGGAACATTAACGTTGGCCGTTGGAGAGCATTAGGCAGCATAGTTCTATGTGTAGCAGGGTCAGAGGCCATGTACGCAGATCTAGGTCACTTCAGAAAGAAATCCATCAAGATTACATTTGTATGCCTCATCTATCCTGTTCTTGTTCTATGCTATGCCGGTCAGGCTGCATTTATCTCCAAAAACTTTCATGATGATGATTACAATCATCTCAGTGTGTCAGTTCCTTTATCAGTTCGACACTGGTTCACTGCATTATCCCTACTTGCTTCAGCTGTCGGAAGTCAAGCCACCATAACGGCCAGTTTCTCCATCATAAATCAGTGCCTGGCACTTGGTTGTTTTCCCAGAGTAAAAGTTATTCATACATCAGATAAGATACACGGGCAGGTTTATATTCCCGATATCAACTGGATACTGATGGTTCTATGCCTTACTGTTACAATTGGTTTCCATAATATTGAGAAAATTGGCAATGCAACAGGTTTGGCCGTAATTTCTGCAATGGTTGTAACAACTTGTCTCATGTCACTGGTGATTGCCTTATACTGGGAGAAGAGTTTGTTTGAATCTATCTGTTTTCTACTATTCTTCGGCTTCATTGAGGCGATGTATGTGTCAGCTTGTATTTTGAATTTCCACAAAGGAGCTTGGTATTTAGTTTTCCTATTGGCATTGTCCTTGACTATCATGCTTTCATGGCATTACGGAACCAAGAAGAAGCTTGAATTCGATTTAACAAACAAGGTGTCTGCAGAATGGCTTGTAGCTATTAGCCCAGCACTAGGAGTTACCAGGGTACCTGGCATTGGTTTCATTTATACTGATATAGTCTCAGGAATTCCAGCTTTCTTCTCACACTTTATTACGAATCTTCCTGCATTTCATCAAGTTTTGATCTTTGTGTCCTTCAAGTCTCTACCAGTTCCCTATGTCCCTGCAACTCGGAGGTACCTTGTGGGAAGGATCGGGCCAAAAGATCTTAAAATATATCGTTGTGTGGTGAGATATGGATATTGTGATCACATTAGAGACACTGATGATTTTGAGGAAGAGATTATTGGTTCGATTGGAGAATTCATTTCCGTGGAAGAAAATGACTTTGACAATTCATTTCAAGATAGAATGATCATAGTTGGCAAGCCACCATCAAATGGAAGTGCTTTGATTCCTTTAAGTGAGATTACCTCATGTGAGGACTCAGTGAGCTTGGTGCACAGTGAAAGCCGGCTAGGTACATTGGCTGATGCATGTGAGAGTGGTTTGGTTTCGATGCAGAGAAAAAAAGTCCGCTTCATGCTGCCTCCGAATAGTCCTAAGATGCGAGTATCTGTTAGGGAGGAGCTTCAAGAACTGATTGATGCTAGGGAGAGTGGTGCTGCATATTTCTTGGGTCAGGTGCATTTGGCAGTTCGTGACGGCTCAAACATTTTCAAGCGGTTACTGATCATGACTTACGTTTTGAGTGAGAAAAACTGCAGAGAGCCTCCCGTTGCACTCAACATTCCTCATGCTGCTCTTGTTGAGGTTGGTATGGTCTGTAGCATATAA

Protein Sequence:

>mrna09346.1-v1.0-hybrid|Fragaria_vesca|NF-X1|mrna09346.1-v1.0-hybrid
MDWVGFCLFGLLNISHLPDDVISFLASGCIFMRACGLPPVWKGAADVSRVLDWVWAAPHLFWQGVGCGTLASSSACGLGDLAFVGDNIGVVKRGGNRTWVKVKTVDCGLIGLICDCSLYSFSFSVDQFELSKLLGDRSCEGLVGSVNMASQVRGERRDNNRSRNPSQPRWVPRGSNPTAAAVNPPPPGFSLNLQNGNANGPAAGESRQHRGGHGGNGGQPNHVSAPGESRQHRGGYNGNGGQLNQVSGPSESRQQRGGHNGNGGQSNYSFTPSDGRQHRGGHNGIVGQFNHSSVPSESRQHRGGHNGNGGQSNQSSTLSENREHRGGHHGYRGNVVRPVNHRREREKSESQEGMGMKDSSLPQLVQEIQDKLTKGTVECMICYDMVRRSAPVWSCSSCYSIFHLNCIKKWARAPTSIDMSAGKNQGFNWRCPGCQSVQLTSSKEIRYVCFCGKRTDPPSDLYLTPHSCGEHCGKPLEKEVAGRGISKDDLCPHMCVLQCHPGPCPPCKAFAPPRLCPCGKKTITTRCSDRTSVLTCGNQCSKLLDCGRHRCERKCHVGPCDPCQVPFNASCFCLKKVEVVLCEEMTVKGEVKAEDGVFSCSSSCCKKLSCGNHVCSEICHPGPCGECNLMPQNVKTCHCGKTSLQEERQSCLDPIPTCSQICEKTLPCGVHQCQQICHTGDCPPCLVKVTQKCRCESTSRNVECCNTTMENQKFTCDKPCGRKKNCGRHRCSERCCPLSNSNNRLSGDWDPHLCSMPCGKKLRCGQHSCESLCHSGHCPPCLDTIFTDLTCACGRTSIPPPLPCGTPPPSCQLPCSVPQPCGHSSSHSCHFGDCPPCSVPVPKECIGGHVVLRNIPCGSKDIKCNKSCGKIRQCGMHACGRTCHPPPCESSSSAEVGSKSSCGQICGAPRRDCRHTCTAPCHPYASCPDARCDFLVTITCSCGRITANVPCDSGGSNASFNAGTVFEASIIQKLPVPLQPVEATNKKVPLGQRKLMCDDECAKLERKRVLADAFDIVPPNLDALHFGETNVTSELLSDLFRRDPKWVLSVEERCKQLVLGKSKGATSGLRVHVFCPMLKEKRDVVRVIADRWKLAVQAAGWEPKRFIVVHATPKSKVPARVLGVKGTTTVNTSQPPAFDHLVDMDPRLVVSFPDLPRDADISALVLRFGGECELVWLNDKNALAVFNDPARAATAMRRLDNGTLYHGAIAVLSVASSGSNAWGGVGIAKEGAYTALKGNAWKKAVIRESSWREDSWGDEELSGGSADVQASVWKKEAPIAASLNRWSVLDSEVPLGSSSVSPTVEDSGKHTSAGVSPTVEDSGKHTTAGLISMVESNASGSTPSNASSSTSMGQLGGSIAETSEVPNMDWDSQLSSATSSNQLKSLGVLYGQMSTAPLYVFGTIHAKDIKSEDTVYELFSFIFWTMSIISFLKYACIVLRADDNGEGGTFALYSLLCRHAKVGLLPNDKSSNEVMHYEREIPFWIKVESRAKRAIEKHKSSHYVMLVLALLGSCMTIGIGVLTPALSVYSASTGVQRSLSDMAKKFSSSENKQDSLAKAFKDYVPVPLASAILVCLFTLQHYGTRKIGFMFAPIIIIWLICIGGVGIYNIFYWDRKIIHAISPVYMYRFVRNINVGRWRALGSIVLCVAGSEAMYADLGHFRKKSIKITFVCLIYPVLVLCYAGQAAFISKNFHDDDYNHLSVSVPLSVRHWFTALSLLASAVGSQATITASFSIINQCLALGCFPRVKVIHTSDKIHGQVYIPDINWILMVLCLTVTIGFHNIEKIGNATGLAVISAMVVTTCLMSLVIALYWEKSLFESICFLLFFGFIEAMYVSACILNFHKGAWYLVFLLALSLTIMLSWHYGTKKKLEFDLTNKVSAEWLVAISPALGVTRVPGIGFIYTDIVSGIPAFFSHFITNLPAFHQVLIFVSFKSLPVPYVPATRRYLVGRIGPKDLKIYRCVVRYGYCDHIRDTDDFEEEIIGSIGEFISVEENDFDNSFQDRMIIVGKPPSNGSALIPLSEITSCEDSVSLVHSESRLGTLADACESGLVSMQRKKVRFMLPPNSPKMRVSVREELQELIDARESGAAYFLGQVHLAVRDGSNIFKRLLIMTYVLSEKNCREPPVALNIPHAALVEVGMVCSI*