A Y-Encoded Suppressor of Feminization Arose via Lineage-Specific Duplication of a Cytokinin Response Regulator in Kiwifruit

Cytokinin is a plant hormone regulating numerous biological processes. Its diverse functions are realized through the expression control of specific target genes. The transcription of the immediate early cytokinin target genes is regulated by type-B response regulator proteins (RRBs), which are transcription factors (TFs) of the Myb family. RRB activity is controlled by phosphorylation and protein degradation. Here, we focus on another step of regulation, the interaction of RRBs among each other or with other TFs to form active or repressive TF complexes. Several examples in Arabidopsis thaliana illustrate that RRBs form homodimers or complexes with other TFs to specify the cytokinin response. This increases the variability of the output response and provides opportunities of crosstalk between the cytokinin signaling pathway and other cellular signaling pathways. We propose that a targeted approach is required to uncover the full extent and impact of RRB interaction with other TFs.

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The Large-flowered Petunia (Petunia hybrida Vilm.) Genotype Promotes Expressions of Type-A Response Regulator and Cytokinin Receptor Genes like Cytokinin Response

Journal of the Japanese Society for Horticultural Science ◽

10.2503/jjshs1.80.343 ◽

2011 ◽

Vol 80 (3) ◽

pp. 343-350 ◽

Cited By ~ 5

Author(s):

Takaaki Nishijima ◽

Tomoya Niki ◽

Tomoko Niki

Keyword(s):

Petunia Hybrida ◽

Response Regulator ◽

Type A ◽

Cytokinin Receptor ◽

Cytokinin Response

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TaARR1, a cytokinin response regulator gene in Triticum aestivum, is essential in plant N starvation tolerance via regulating the N acquisition and N assimilation

Journal of Integrative Agriculture ◽

10.1016/s2095-3119(19)62698-5 ◽

2019 ◽

Vol 18 (12) ◽

pp. 2691-2702

Author(s):

Meng-ya YANG ◽

Jia-qi CHEN ◽

He-yang TIAN ◽

Chen-yang NI ◽

Kai XIAO

Keyword(s):

Triticum Aestivum ◽

Response Regulator ◽

Regulator Gene ◽

Starvation Tolerance ◽

N Assimilation ◽

N Starvation ◽

N Acquisition ◽

Cytokinin Response

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Genome sequencing and population genomic analyses provide insights into the adaptive landscape of silver birch

Nature Genetics ◽

10.1038/ng.3862 ◽

2017 ◽

Vol 49 (6) ◽

pp. 904-912 ◽

Cited By ~ 87

Author(s):

Jarkko Salojärvi ◽

Olli-Pekka Smolander ◽

Kaisa Nieminen ◽

Sitaram Rajaraman ◽

Omid Safronov ◽

...

Keyword(s):

Response Regulator ◽

Nuclear Genome ◽

Light Response ◽

Silver Birch ◽

Adaptive Landscape ◽

Effective Population ◽

Individual Gene ◽

Wood Development ◽

Environmental Responses ◽

Cytokinin Response

Abstract Silver birch (Betula pendula) is a pioneer boreal tree that can be induced to flower within 1 year. Its rapid life cycle, small (440-Mb) genome, and advanced germplasm resources make birch an attractive model for forest biotechnology. We assembled and chromosomally anchored the nuclear genome of an inbred B. pendula individual. Gene duplicates from the paleohexaploid event were enriched for transcriptional regulation, whereas tandem duplicates were overrepresented by environmental responses. Population resequencing of 80 individuals showed effective population size crashes at major points of climatic upheaval. Selective sweeps were enriched among polyploid duplicates encoding key developmental and physiological triggering functions, suggesting that local adaptation has tuned the timing of and cross-talk between fundamental plant processes. Variation around the tightly-linked light response genes PHYC and FRS10 correlated with latitude and longitude and temperature, and with precipitation for PHYC. Similar associations characterized the growth-promoting cytokinin response regulator ARR1, and the wood development genes KAK and MED5A.

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