Gene Details:

  • Gene ID: Lj1g3v2035100.1
  • Gene Name: bZIP-R91
  • Gene Family: bZIP Family
  • Description: bZIP Family protein
  • Species: Lotus japonicus
  • Source: bZIP family gene from PlantTFDB

Protein Features:

Annotation Proteins:

  • Refseq:  XP_004501207.1  — bZIP transcription factor RISBZ4-like
  • Swissprot:  Q6ETX0  — RSBZ3_ORYSJ; bZIP transcription factor RISBZ3
  • Swissprot:  Q6H500  — RSBZ4_ORYSJ; bZIP transcription factor RISBZ4
  • TrEMBL:  B3IX29  — B3IX29_LOTJA; Transcription factor bZIP
  • STRING:  XP_004501207.1  — (Cicer arietinum)

Gene Ontology:

  • GO:0006355  — Biological Process — regulation of transcription, DNA-templated
  • GO:0071333  — Biological Process — cellular response to glucose stimulus
  • GO:0005634  — Cellular Component — nucleus
  • GO:0003700  — Molecular Function — transcription factor activity, sequence-specific DNA binding
  • GO:0042803  — Molecular Function — protein homodimerization activity
  • GO:0043565  — Molecular Function — sequence-specific DNA binding
  • GO:0046982  — Molecular Function — protein heterodimerization activity

Family Introduction:

  • The bZIP domain consists of two structural features located on a contiguous alpha-helix: first, a basic region of ~ 16 amino acid residues containing a nuclear localization signal followed by an invariant N-x7-R/K motif that contacts the DNA; and, second, a heptad repeat of leucines or other bulky hydrophobic amino acids positioned exactly nine amino acids towards the C-terminus, creating an amphipathic helix. To bind DNA, two subunits adhere via interactions between the hydrophobic sides of their helices, which creates a superimposing coiled-coil structure. The ability to form homo- and heterodimers is influenced by the electrostatic attraction and repulsion of polar residues flanking the hydrophobic interaction surface of the helices.
  • Plant bZIP proteins preferentially bind to DNA sequences with an ACGT core. Binding specificity is regulated by flanking nucleotides. Plant bZIPs preferentially bind to the A-box (TACGTA), C-box (GACGTC) and G-box (CACGTG), but there are also examples of nonpalindromic binding sites.

Literature:

Sequences:

CDS Sequence:
  • >Lj1g3v2035100.1|Lotus_japonicus|bZIP|Lj1g3v2035100.1
    ATGGCTTCAAGTGAGACTGCAGATCTGAACGAGTTTCTCAACCTCGATTACGACCACCTCCGCTATCCCGACACCGCCGATGCATTATTCAACACCGTTTGCTCCGCCGCGTTCCACAACCTCCTCCCCGATGTGGTGAGTTCATTTTCAACTTGTGGTGGAGTAACAGTCACAGACACCCTTTACTCCCAAAAGCTCACTCCCAAATGTTCCACCGTGACTGCTACCAATGACTCTCAGTCATCAATTTGTGTTGGAAGTCCAGTGTCAGCTAATAAGCCAAACATGGGAGGAGAGAATCATCTGAAAGGAACTTCAAGTGGTTCCTCCGACCGGTCTGATGAGGATGATGATGAAGCAGGTCCCTGTGAACAAAGCAATAATCCACAAGATGTCAAGCGCCTTAGAAGGAAGGTTTCGAATCGTGAATCTGCGAGGAGATCAAGAAGAAGAAAACAAGCTCATTTGGCTGAACTTGAGACACAGGTTGAAAAACTGAAGCTGGAAAATGCAACCCTGTACAAGCAGTTCACAGATGCTAGTCAGCAATTTCGCGAG
Protein Sequence:
  • >Lj1g3v2035100.1|Lotus_japonicus|bZIP|Lj1g3v2035100.1
    MASSETADLNEFLNLDYDHLRYPDTADALFNTVCSAAFHNLLPDVVSSFSTCGGVTVTDTLYSQKLTPKCSTVTATNDSQSSICVGSPVSANKPNMGGENHLKGTSSGSSDRSDEDDDEAGPCEQSNNPQDVKRLRRKVSNRESARRSRRRKQAHLAELETQVEKLKLENATLYKQFTDASQQFRE