Marc Jakoby scite author profile

In plants, basic region/leucine zipper motif (bZIP) transcription factors regulate processes including pathogen defence, light and stress signalling, seed maturation and flower development. The Arabidopsis genome sequence contains 75 distinct members of the bZIP family, of which approximately 50 are not described in the literature. Using common domains, the AtbZIP family can be subdivided into ten groups. Here, we review the available data on bZIP functions in the context of subgroup membership and discuss the interacting proteins. This integration is essential for a complete functional characterization of bZIP transcription factors in plants, and to identify functional redundancies among AtbZIP factors.

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The Basic Helix-Loop-Helix Transcription Factor Family in Plants: A Genome-Wide Study of Protein Structure and Functional Diversity

Heim

et al. 2003

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Basic helix-loop-helix (bHLH) transcription factors (TFs) belong to a family of transcriptional regulators present in three eukaryotic kingdoms. Many different functions have been identified for these proteins in animals, including the control of cell proliferation and development of specific cell lineages. Their mechanism for controlling gene transcription often involves homodimerization or heterodimerization. In plants, little is known about the bHLH family, but we have determined that there are 133 bHLH genes in Arabidopsis thaliana and have confirmed that at least 113 of them are expressed. The AtbHLH genes constitute one of the largest families of transcription factors in A. thaliana with significantly more members than are found in most animal species and about an equivalent number to those in vertebrates. Comparisons with animal sequences suggest that the majority of plant bHLH genes have evolved from the ancestral group B class of bHLH genes. By studying the AtbHLH genes collectively, twelve subfamilies have been identified. Within each of these main groups, there are conserved amino acid sequence motifs outside the DNA binding domain. Potential gene redundancy among members of smaller subgroups has been analyzed, and the resulting information is presented to provide a simplified visual interpretation of the gene family, identifying related genes that are likely to share similar functions. Based on the current characterization of a limited number of plant bHLH proteins, we predict that this family of TFs has a range of different roles in plant cell and tissue development as well as plant metabolism.

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FRU (BHLH029) is required for induction of iron mobilization genes in Arabidopsis thaliana

et al. 2004

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Iron mobilization responses are induced by low iron supply at transcriptional level. In tomato, the basic helix-loophelix gene FER is required for induction of iron mobilization. Using molecular-genetic techniques, we analyzed the function of BHLH029, named FRU (FER-like regulator of iron uptake), the Arabidopsis thaliana homolog of the tomato FER gene. The FRU gene was mainly expressed in roots in a cell-specific pattern and induced by iron deficiency. FRU mutant plants were chlorotic, and the FRU gene was found necessary for induction of the essential iron mobilization genes FRO2 (ferric chelate reductase gene) and IRT1 (iron-regulated transporter gene). Overexpression of FRU resulted in an increase of iron mobilization responses at low iron supply. Thus, the FRU gene is a mediator in induction of iron mobilization responses in Arabidopsis, indicating that regulation of iron uptake is conserved in dicot species.

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A positive signal from the fertilization of the egg cell sets off endosperm proliferation in angiosperm embryogenesis

et al. 2005

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Double fertilization of the egg cell and the central cell by one sperm cell each produces the diploid embryo and the typically triploid endosperm and is one of the defining characteristics of flowering plants (angiosperms). Endosperm and embryo develop in parallel to form the mature seed, but little is known about the coordination between these two organisms. We characterized a mutation of the Arabidopsis thaliana Cdc2 homolog CDC2A (also called CDKA;1), which has a paternal effect. In cdc2a mutant pollen, only one sperm cell, instead of two, is produced. Mutant pollen is viable but can fertilize only one cell in the embryo sac, allowing for a genetic dissection of the double fertilization process. We observed exclusive fertilization of the egg cell by cdc2a sperm cells. Moreover, we found that unfertilized endosperm developed, suggesting that a previously unrecognized positive signal from the fertilization of the egg cell initiates proliferation of the central cell.Plants have a complex life cycle involving the alternation of a diploid sporophytic and a haploid gametophytic phase. In flowering plants, the female spore (megaspore), generated from the sporophyte, typically develops through a series of syncytial nuclear divisions followed by 'cellularization' into a seven-celled female gametophyte (embryo sac) comprising three antipodals, two synergids, a binucleated central cell and the egg cell 1 . The male spore (microspore) undergoes a defined cell division program resulting in a male gametophyte (pollen grain) comprising a vegetative cell that encloses two sperm cells 2 .Cell divisions in plants, as in other higher eukaryotes, are controlled by a class of serine-threonine kinases called cyclin-dependent kinases (CDKs). Some of the central CDKs in plants are A-type CDK proteins. A. thaliana contains only one A-type CDK, called CDC2A (or CDKA;1), which can rescue the fission yeast cdc2 mutant [3][4][5] . Previous studies with dominant negative variants showed that CDC2A activity is required for entering both mitosis and the DNA synthesis-phase in A. thaliana, maize and tobacco [6][7][8] .

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Marc Jakoby

bZIP transcription factors in Arabidopsis

The Basic Helix-Loop-Helix Transcription Factor Family in Plants: A Genome-Wide Study of Protein Structure and Functional Diversity

FRU (BHLH029) is required for induction of iron mobilization genes in Arabidopsis thaliana

A positive signal from the fertilization of the egg cell sets off endosperm proliferation in angiosperm embryogenesis

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