Plant Transcription factor database - Universität Potsdam
version: 3.0

Vitis vinifera MADS Family


Riechmann & Meyerowitz. 1997: The MADS domain (MCM1, AGAMOUS, DEFICIENS, and SRF, serum response factor) is a conserved DNA-binding/dimerization region present in a variety of transcription factors from different kingdoms. MADS box genes represent a large multigene family in vascular plants. In angiosperms, many of the genes of the MADS family are involved in different steps of flower development, most notably in the determination of floral meristem and organ identity. The roles that MADS box genes play, however, are not restricted to control the development of the plant reproductive structures. The genetic, molecular, and biochemical basis of the action of the MADS domain proteins in the plant life cycle are reviewed here.

Members of this family
  SHOULD possess SRF-TF domain

Domain alignments

Benchmark against A. thaliana

The Sensitivity and Positive Predictive Value (PPV) were assessed for this family. The data reported by Parenicova et al. 2003 for A. thaliana were taken as gold standard.

The gold standard reported 108 members for this family, 99 of which are present in ArabTFDB, giving a PPV of 0.95. Nine additional members not present in ArabTFDB might be false negatives, giving a Sensitivity of 0.92.

This family is also present in:


There are 60 gene models in this family

Gene modelDescriptionDomains
GSVIVP00000011001 K-box SRF-TF
GSVIVP00000012001 K-box SRF-TF
GSVIVP00000542001 SRF-TF
GSVIVP00001070001 K-box SRF-TF
GSVIVP00002394001 K-box SRF-TF
GSVIVP00002777001 K-box SRF-TF
GSVIVP00002779001 SRF-TF
GSVIVP00003387001 SRF-TF
GSVIVP00003424001 SRF-TF
GSVIVP00004864001 K-box SRF-TF
GSVIVP00006101001 Pkinase Pkinase_Tyr SRF-TF
GSVIVP00007548001 K-box SRF-TF
GSVIVP00008566001 K-box SRF-TF
GSVIVP00008993001 SRF-TF
GSVIVP00009443001 K-box SRF-TF
GSVIVP00010601001 K-box SRF-TF
GSVIVP00010608001 K-box SRF-TF
GSVIVP00010651001 SRF-TF
GSVIVP00011492001 K-box SHMT SRF-TF
GSVIVP00012665001 SRF-TF
GSVIVP00014506001 K-box SRF-TF
GSVIVP00014916001 SRF-TF
GSVIVP00015065001 K-box SRF-TF
GSVIVP00015108001 K-box SRF-TF
GSVIVP00015276001 SRF-TF
GSVIVP00015451001 K-box SRF-TF
GSVIVP00016320001 SRF-TF
GSVIVP00017956001 K-box SRF-TF
GSVIVP00018932001 K-box SRF-TF
GSVIVP00019149001 SRF-TF
GSVIVP00019152001 SRF-TF
GSVIVP00019440001 SRF-TF
GSVIVP00019612001 SRF-TF
GSVIVP00019738001 SRF-TF
GSVIVP00019739001 SRF-TF
GSVIVP00021252001 SRF-TF
GSVIVP00021254001 SRF-TF
GSVIVP00021903001 K-box SRF-TF
GSVIVP00021934001 K-box SRF-TF
GSVIVP00022510001 SRF-TF
GSVIVP00025618001 K-box SRF-TF
GSVIVP00026310001 K-box SRF-TF
GSVIVP00026312001 K-box SRF-TF
GSVIVP00027170001 SRF-TF
GSVIVP00027919001 SRF-TF
GSVIVP00028336001 SRF-TF
GSVIVP00030005001 K-box SRF-TF
GSVIVP00030008001 K-box SRF-TF
GSVIVP00030142001 K-box SRF-TF
GSVIVP00031869001 K-box SRF-TF
GSVIVP00035812001 SRF-TF
GSVIVP00036846001 K-box SRF-TF
GSVIVP00037877001 K-box SRF-TF
GSVIVP00038077001 K-box SRF-TF
GSVIVP00038079001 K-box SRF-TF
GSVIVP00038593001 SRF-TF
GSVIVP00038594001 SRF-TF
GSVIVP00038595001 SRF-TF
GSVIVP00038600001 SRF-TF
GSVIVP00038603001 SRF-TF

General references

Jack, T. 2001. Plant development going MADS. Plant Mol. Biol. 46(5):515-20 PUBMEDID:11516144
Nam, J; dePamphilis, CW; Ma, H; Nei, M. 2003. Antiquity and evolution of the MADS-box gene family controlling flower development in plants. Mol. Biol. Evol. 20(9):1435-47 PUBMEDID:12777513
Nam, J; Kim, J; Lee, S; An, G; Ma, H; Nei, M. 2004. Type I MADS-box genes have experienced faster birth-and-death evolution than type II MADS-box genes in angiosperms. Proc. Natl. Acad. Sci. U.S.A. 101(7):1910-5 PUBMEDID:14764899
Ng, M; Yanofsky, MF. 2001. Function and evolution of the plant MADS-box gene family. Nat. Rev. Genet. 2(3):186-95 PUBMEDID:11256070
Riechmann, JL; Meyerowitz, EM. 1997. MADS domain proteins in plant development. Biol. Chem. 378(10):1079-101 PUBMEDID:9372178
Shore, P; Sharrocks, AD. 1995. The MADS-box family of transcription factors. Eur. J. Biochem. 229(1):1-13 PUBMEDID:7744019
West, AG; Sharrocks, AD. 1999. MADS-box transcription factors adopt alternative mechanisms for bending DNA. J. Mol. Biol. 286(5):1311-23 PUBMEDID:10064699