Results 51 to 60 of about 11,536 (153)
Frontiers in Plant Science, 2016 The MADS-box gene family is an important transcription factor (TF) family that is involved in various aspects of plant growth and development, especially flowering time and floral organogenesis.
Chao Li +9 more
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Frontiers in Plant Science, 2022 MADS-box is an important transcription factor family that is involved in the regulation of various stages of plant growth and development, especially flowering regulation and flower development.
Kunyu Duan +8 more
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Evolutionary Dynamics of FLC-like MADS-Box Genes in Brassicaceae
Plants, 2023 MADS-box genes encode transcription factors that play important roles in the development and evolution of plants. There are more than a dozen clades of MADS-box genes in angiosperms, of which those with functions in the specification of floral organ identity are especially well-known.
Lydia Gramzow +2 more
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Functional analysis of petunia floral homeotic MADS box gene pMADS1. [PDF]
Genes & Development, 1993 The petunia mutant green petal (gp, line PLV) shows a homeotic effect in one floral whorl, that is, the conversion of petal to sepal. We demonstrate that this mutant contains a chromosomal deletion, including the petunia MADS box gene pMADS1.
van der Krol, A.R. +3 more
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Gene Structural Specificity and Expression of MADS-Box Gene Family in Camellia chekiangoleosa
International Journal of Molecular Sciences, 2023 MADS-box genes encode transcription factors that affect plant growth and development. Camellia chekiangoleosa is an oil tree species with ornamental value, but there have been few molecular biological studies on the developmental regulation of this species. To explore their possible role in C. chekiangoleosa and lay a foundation for subsequent research,
Pengyan Zhou +7 more
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Identification of three MADS-box genes expressed in sunflower capitulum [PDF]
Journal of Experimental Botany, 2003 Three cDNA clones, HaPI, HaAG and HaAP3, were isolated from sunflower inflorescences at the R2 stage of development. The cDNAs share high sequence similarity with the PISTILLATA, AGAMOUS, and APETALA3 genes from Arabidopsis, respectively, which contain a MADS-box and are involved in floral organ development.
Carlos A, Dezar +3 more
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Genome-Wide Analysis of MIKCC-Type MADS Box Genes in Grapevine [PDF]
Plant Physiology, 2008 AbstractMIKCC-type MADS box genes encode transcription factors that play crucial roles in plant growth and development. Analysis of the grapevine (Vitis vinifera) genome revealed up to 38 MIKCC-type genes. We report here a complete analysis of this gene family regarding their phylogenetic relationships with homologous genes identified in other ...
Díaz Riquelme, José +3 more
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Frontiers in Plant ScienceThe MADS-box gene family plays a pivotal role in regulating floral organ development and various aspects of plant growth. Despite its well-established importance in many species, the function and evolution of MADS-box genes in Ricinus communis (castor ...
Jing Sun +7 more
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Cloning and analysis of two Ceratopteris thalictroides MADS-box genes
上海师范大学学报. 自然科学版, 2014 MADS-box transcription factors,as a large gene family,play an important role in plant growth and development,especially act as key regulators in controlling the identities of floral organs in flowering plants.They are also significant in the evolutionary
XU Daolan +3 more
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Divergence of Recently Duplicated M -Type MADS-Box Genes in Petunia [PDF]
Molecular Biology and Evolution, 2009 The MADS-box transcription factor family has expanded considerably in plants via gene and genome duplications and can be subdivided into type I and MIKC-type genes. The two gene classes show a different evolutionary history. Whereas the MIKC-type genes originated during ancient genome duplications, as well as during more recent events, the type I loci ...
Bemer, M. +3 more
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