NCBI Summary:
The protein encoded by this gene is one subunit of a trimeric complex, forming a highly conserved transcription factor that binds with high specificity to CCAAT motifs in the promoter regions in a variety of genes. This gene product, subunit B, forms a tight dimer with the C subunit, a prerequisite for subunit A association. The resulting trimer binds to DNA with high specificity and affinity. Subunits B and C each contain a histone-like motif. Observation of the histone nature of these subunits is supported by two types of evidence; protein sequence alignments and experiments with mutants.
General function
DNA binding, Transcription factor
Comment
Cellular localization
Nuclear
Comment
Ovarian function
Oogenesis
Comment
Expression regulated by
Comment
Ovarian localization
Oocyte
Comment
Temperature may influence and regulate NF-YB expression in toad oocyte.
Yan S, et al .
Fully grown oocytes derived from Bufo gargarizans maintained at relatively low temperatures (4 degrees C, LTE-oocytes) acquire the competence to resume normal meiosis. In contrast, fully grown oocytes derived from toads maintained at relatively high temperatures (28 degrees C, HTE-oocytes) never acquire maturation competence. By suppression subtractive hybridization, we obtained 18 ESTs preliminarily thought to be preferentially expressed in LTE-oocytes; of these, TS1-4 shared homology with the human and mouse NF-YB genes. We cloned the full-length toad NF-YB gene by RACE and identified three alternatively spliced transcripts: tNF-YB1, tNF-YB2, and tNF-YB3 (GenBank Accession Nos. AY442015, AY442016, and AY442017, respectively). Toad NF-YB was differentially transcribed and translated in LTE-oocytes versus HTE-oocytes, likely resulting in differential CCAAT-binding and/or transcriptional activity of NF-Y. Furthermore, toad cyclin B2 was differentially transcribed at high and low temperatures. Taken together, this report of the differential expression of toad NF-YB at different temperatures is the first evidence that temperature may influence and regulate NF-YB expression.