Pamela Anahí Ribone scite author profile

SummaryArabidopsis thaliana HomeoBox 1 (AtHB1) is a homeodomain-leucine zipper transcription factor described as a transcriptional activator with unknown function. Its role in A. thaliana development was investigated.AtHB1 expression was analyzed in transgenic plants bearing its promoter region fused to reporter genes. Knock-down mutant and overexpressor plant phenotypes were analyzed in different photoperiod regimes.AtHB1 was mainly expressed in hypocotyls and roots and up-regulated in seedlings grown under a short-day photoperiod. AtHB1 knock-down mutants and overexpressors showed shorter and longer hypocotyls, respectively, than wild type (WT). AtHB1 transcript levels were lower in PHYTOCHROME-INTERACTING FACTOR 1 (PIF1) mutants than in controls, suggesting that AtHB1 is regulated by PIF1 in hypocotyls. b-glucuronidase (GUS) activity in Nicotiana benthamiana leaves cotransformed with PromAtHB1::GUS and 35S::PIF1 indicated that PIF1 induces AtHB1 expression. Hypocotyl lenght was measured in seedlings of athb1, pif1, or double athb1/pif1 mutants and PIF1 or AtHB1 overexpressors in WT, athb1 or pif1 backgrounds, both in short-or long-day. These analyses allowed us to determine that AtHB1 is a factor acting downstream of PIF1. Finally, a transcriptome analysis of athb1 mutant hypocotyls revealed that AtHB1 regulates genes involved in cell wall composition and elongation.The results suggest that AtHB1 acts downstream of PIF1 to promote hypocotyl elongation, especially in response to short-day photoperiods.

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Functional characterization of the homeodomain leucine zipper I transcription factor AtHB13 reveals a crucial role inArabidopsisdevelopment

Ribone

Capella

Chan

2015

EXBOTJ

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AtHB13 is a homeodomain leucine zipper I transcription factor whose function in development is largely unknown. AtHB13 and AtHB23 mutant and silenced lines were characterized by expression studies, reciprocal crosses, complementation, molecular analyses, and developmental phenotypes. The athb13-1 and athb13-2 mutants, athb23 silenced, and athb13/athb23 double-silenced plants exhibited faster elongation rates of their inflorescence stems, whereas only athb13-1 and the double-knockdown athb13/athb23 exhibited shorter siliques, fewer seeds, and unfertilized ovules compared with the wild type (WT). The cell sizes of mutant and WT plants were similar, indicating that these transcription factors probably affect cell division. Reciprocal crosses between athb13-1 and the WT genotype indicated that the silique defect was male specific. Pollen hydration assays indicated that the pollen grains of the athb13-1 mutant were unable to germinate on stigmas. AtHB23-silenced plants exhibited normal siliques, whereas double-knockdown athb13/athb23 plants were similar to athb13-1 plants. Both AtHB13 and AtHB23 were able to rescue the abnormal silique phenotype. AtHB23 was upregulated in athb13-2 plants, whereas its transcript levels in athb13-1 mutants were not significantly increased. Transcriptome analysis comparing athb13-1 and WT inflorescences revealed that a large number of genes, including several involved in pollen coat formation, are regulated by AtHB13. Finally, athb13-1 complementation with mutated versions of AtHB13 confirmed that two different tryptophans in its C terminus are essential. We conclude that AtHB13 and AtHB23 play independent, negative developmental roles in stem elongation, whereas only AtHB13 is crucial for pollen germination. Furthermore, AtHB23, which does not normally exert a functional role in pollen, can act as a substitute for AtHB13.

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Pamela Anahí Ribone

A Predictive Coexpression Network Identifies Novel Genes Controlling the Seed-to-Seedling Phase Transition in Arabidopsis thaliana

Arabidopsis thaliana HomeoBox 1 (AtHB1), a Homedomain‐Leucine Zipper I (HD‐Zip I) transcription factor, is regulated by PHYTOCHROME‐INTERACTING FACTOR 1 to promote hypocotyl elongation

Functional characterization of the homeodomain leucine zipper I transcription factor AtHB13 reveals a crucial role inArabidopsisdevelopment

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