BTB proteins with Meprin and TRAF Homology (MATH) domain (A2 subfamily)
Superfamily: | Bric-A-Brac/Tramtrack/Broad Complex (BTB) Proteins |
Contact: | Derek Gingerich |
Organization: | University of Wisconsin-Eau Claire |
Source: | Gingerich DJ, Hanada K, Shiu SH, Vierstra RD (2007) Large-scale, lineage-specific expansion of a bric-a-brac/tramtrack/broad complex ubiquitin-ligase gene family in rice. Plant Cell 19(8):2329-48 |
Criteria: | Annotation is based on the comparison of homologous genes in rice and Arabidopsis and, when available, on full-length cDNAs |
Gene Name: | MBTB3 |
Gene Description: | Bric-a-Brac, Tramtrack, Broad Complex (BTB) domain with Meprin and TRAF Homology (MATH) domain |
MSU Annotation: | MBTB3 - Bric-a-Brac, Tramtrack, Broad Complex BTB domain with Meprin and TRAF Homology MATH domain, expressed |
GenBank Genomic Acc: | AP008209 |
Comment: | AK100829 |
Structural Annotation: | |
Gene Name: | MBTB12 |
Gene Description: | Bric-a-Brac, Tramtrack, Broad Complex (BTB) domain with Meprin and TRAF Homology (MATH) domain |
MSU Annotation: | MBTB12 - Bric-a-Brac, Tramtrack, Broad Complex BTB domain with Meprin and TRAF Homology MATH domain, expressed |
GenBank Genomic Acc: | AP008213 |
Comment: | AK069837 |
Structural Annotation: | |
Gene Name: | MBTB13 |
Gene Description: | Bric-a-Brac, Tramtrack, Broad Complex (BTB) domain with Meprin and TRAF Homology (MATH) domain |
MSU Annotation: | MBTB13 - Bric-a-Brac, Tramtrack, Broad Complex BTB domain with Meprin and TRAF Homology MATH domain, expressed |
GenBank Genomic Acc: | AP008213 |
Comment: | AK120608 |
Structural Annotation: | |
Gene Name: | MBTB14 |
Gene Description: | Bric-a-Brac, Tramtrack, Broad Complex (BTB) domain with Meprin and TRAF Homology (MATH) domain |
MSU Annotation: | MBTB14 - Bric-a-Brac, Tramtrack, Broad Complex BTB domain with Meprin and TRAF Homology MATH domain, expressed |
GenBank Genomic Acc: | AP008213 |
Comment: | AK073258 |
Structural Annotation: | |
This work is supported by grants (DBI-0321538/DBI-0834043) from the National Science Foundation and funds from the Georgia Research Alliance, Georgia Seed Development, and University of Georgia.