PlantTFDB
PlantRegMap/PlantTFDB v5.0
Plant Transcription Factor Database
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(e.g., LFY)
Cucurbita moschata
MIKC_MADS Family
Species TF ID Description
Cucurbita moschata
(99)
XP_022922381.1MIKC_MADS family protein
XP_022922382.1MIKC_MADS family protein
XP_022922383.1MIKC_MADS family protein
XP_022922384.1MIKC_MADS family protein
XP_022922526.1MIKC_MADS family protein
XP_022922527.1MIKC_MADS family protein
XP_022922528.1MIKC_MADS family protein
XP_022922550.1MIKC_MADS family protein
XP_022922663.1MIKC_MADS family protein
XP_022922664.1MIKC_MADS family protein
XP_022922665.1MIKC_MADS family protein
XP_022922667.1MIKC_MADS family protein
XP_022922668.1MIKC_MADS family protein
XP_022922670.1MIKC_MADS family protein
XP_022923620.1MIKC_MADS family protein
XP_022923727.1MIKC_MADS family protein
XP_022924421.1MIKC_MADS family protein
XP_022924973.1MIKC_MADS family protein
XP_022925494.1MIKC_MADS family protein
XP_022925575.1MIKC_MADS family protein
XP_022925576.1MIKC_MADS family protein
XP_022925702.1MIKC_MADS family protein
XP_022926519.1MIKC_MADS family protein
XP_022926520.1MIKC_MADS family protein
XP_022926521.1MIKC_MADS family protein
XP_022926522.1MIKC_MADS family protein
XP_022926903.1MIKC_MADS family protein
XP_022927464.1MIKC_MADS family protein
XP_022927465.1MIKC_MADS family protein
XP_022928594.1MIKC_MADS family protein
XP_022928910.1MIKC_MADS family protein
XP_022929277.1MIKC_MADS family protein
XP_022935915.1MIKC_MADS family protein
XP_022936488.1MIKC_MADS family protein
XP_022936489.1MIKC_MADS family protein
XP_022936832.1MIKC_MADS family protein
XP_022936833.1MIKC_MADS family protein
XP_022936834.1MIKC_MADS family protein
XP_022940036.1MIKC_MADS family protein
XP_022940463.1MIKC_MADS family protein
XP_022940464.1MIKC_MADS family protein
XP_022940465.1MIKC_MADS family protein
XP_022940466.1MIKC_MADS family protein
XP_022940467.1MIKC_MADS family protein
XP_022941441.1MIKC_MADS family protein
XP_022941442.1MIKC_MADS family protein
XP_022941774.1MIKC_MADS family protein
XP_022941775.1MIKC_MADS family protein
XP_022941776.1MIKC_MADS family protein
XP_022943627.1MIKC_MADS family protein
XP_022943636.1MIKC_MADS family protein
XP_022943646.1MIKC_MADS family protein
XP_022943656.1MIKC_MADS family protein
XP_022943667.1MIKC_MADS family protein
XP_022944555.1MIKC_MADS family protein
XP_022948662.1MIKC_MADS family protein
XP_022948663.1MIKC_MADS family protein
XP_022948664.1MIKC_MADS family protein
XP_022948665.1MIKC_MADS family protein
XP_022948666.1MIKC_MADS family protein
XP_022948667.1MIKC_MADS family protein
XP_022949125.1MIKC_MADS family protein
XP_022949126.1MIKC_MADS family protein
XP_022949471.1MIKC_MADS family protein
XP_022949472.1MIKC_MADS family protein
XP_022950516.1MIKC_MADS family protein
XP_022950517.1MIKC_MADS family protein
XP_022950519.1MIKC_MADS family protein
XP_022950636.1MIKC_MADS family protein
XP_022950637.1MIKC_MADS family protein
XP_022951349.1MIKC_MADS family protein
XP_022951350.1MIKC_MADS family protein
XP_022951351.1MIKC_MADS family protein
XP_022951352.1MIKC_MADS family protein
XP_022951531.1MIKC_MADS family protein
XP_022951685.1MIKC_MADS family protein
XP_022952213.1MIKC_MADS family protein
XP_022952214.1MIKC_MADS family protein
XP_022952215.1MIKC_MADS family protein
XP_022954378.1MIKC_MADS family protein
XP_022955225.1MIKC_MADS family protein
XP_022955282.1MIKC_MADS family protein
XP_022955283.1MIKC_MADS family protein
XP_022955285.1MIKC_MADS family protein
XP_022955286.1MIKC_MADS family protein
XP_022955438.1MIKC_MADS family protein
XP_022955901.1MIKC_MADS family protein
XP_022955902.1MIKC_MADS family protein
XP_022957636.1MIKC_MADS family protein
XP_022958243.1MIKC_MADS family protein
XP_022958245.1MIKC_MADS family protein
XP_022959858.1MIKC_MADS family protein
XP_022959859.1MIKC_MADS family protein
XP_022959860.1MIKC_MADS family protein
XP_022962900.1MIKC_MADS family protein
XP_022962901.1MIKC_MADS family protein
XP_022964202.1MIKC_MADS family protein
XP_022964203.1MIKC_MADS family protein
XP_022964204.1MIKC_MADS family protein
MIKC_MADS (MIKC-type MADS) Family Introduction

The best studied plant MADS-box transcription factors are those involved in floral organ identity determination. Analysis of homeotic floral mutants resulted in the formulation of a genetic model, named the ABC model, that explains how the combined functions of three classes of genes (A, B, and C) determine the identity of the four flower organs (reviewed by Coen and Meyerowitz, 1991). Arabidopsis has two A-class genes (AP1 and AP2 [Bowman et al., 1989]), two B-class genes (PI and AP3), and a single C-class gene (AG), of which only AP2 is not a MADS-box gene. Recently, it was shown that the Arabidopsis B- and C-function genes, which control petal, stamen, and carpel development, are functionally dependent on three highly similar MADS-box genes, SEP1, SEP2, and SEP3 (Pelaz et al., 2000). Interestingly, only when mutant knockout alleles of the three SEP genes were combined in a triple sep1 sep2 sep3 mutant was loss of petal, stamen, and carpel identity observed, resulting in a flower composed of only sepals. This example shows that redundancy occurs in the MADS-box gene family, which complicates reverse genetic strategies for gene function analysis. The SHP genes provide another example of MADS-box gene redundancy. shp1 and shp2 single mutants do not exhibit any phenotypic effect, whereas in the double mutant, development of the dehiscence zone is disturbed in the fruit, resulting in a failure to release seeds (Liljegren et al., 2000)[1].

It has been proposed that there are at least 2 lineages (type I and type II) of MADS-box genes in plants, animals, and fungi. Most of the well-studied plant genes are type II genes and have three more domains than type I genes from the N to the C terminus of the protein:intervening (I) domain (~30 codons), keratin-lik e coiled-coil (K) domain (~70 codons), and Cterminal (C) domain (variable length). These genes are called the MIKC-type and are specific to plants[2].

The MADS-box is a DNA binding domain of 58 amino acids that binds DNA at consensus recognition sequences known as CArG boxes [CC(A/T)6GG] (Hayes et al., 1988; Riechmann et al., 1996b). The interaction with DNA has been studied in detail for the human and yeast MADS-box proteins thanks to the resolved crystal structures (Pellegrini et al., 1995; Santelli and Richmond, 2000). The I domain is less conserved and contributes to the specification of dimerization. The K domain is characterized by a coiled-coil structure, which facilitates the dimerization of MADS-box proteins (Davies et al., 1996; Fan et al., 1997). The C domain is the least conserved domain; in some cases, it has been shown to contain a transactivation domain or to contribute to the formation of multimeric MADS-box protein complexes (Egea-Cortines et al., 1999; Honma and Goto, 2001)[1].

1.Parenicova L, de Folter S, Kieffer M, Horner DS, Favalli C, Busscher J, Cook HE, Ingram RM, Kater MM, Davies B, Angenent GC, Colombo L.
Molecular and phylogenetic analyses of the complete MADS-box transcription factor family in Arabidopsis: new openings to the MADS world.
Plant Cell. 2003 Jul;15(7):1538-51.
PMID: 12837945
2.Nam J, dePamphilis CW, Ma H, Nei M.
Antiquity and evolution of the MADS-box gene family controlling flower development in plants.
Mol Biol Evol. 2003 Sep;20(9):1435-47. Epub 2003 May 30.
PMID: 12777513