Xiaozhen Yao scite author profile

SummaryThe shoot apical meristem (SAM) of angiosperms comprises a group of undifferentiated cells which divide to maintain the meristem and also give rise to all the above-ground structures of the plant. Previous studies revealed that the Arabidopsis ARGONAUTE10 [AGO10, also called PINHEAD (PNH) or ZWILLE (ZLL)] gene is one of the critical SAM regulators, but the mechanism by which AGO10 modulates the SAM is unknown. In the present study we show that AGO10 genetically represses microRNA165/166 (miR165/166) for SAM maintenance as well as establishment of leaf adaxial-abaxial polarity. Levels of miR165/166 in leaves and embryonic SAMs of pnh/zll/ago10 mutants are abnormally elevated, leading to a reduction in the quantity of homeodomain-leucine zipper (HD-ZIP) III gene transcripts, the targets of miR165/166. This reduction is the primary cause of pnh/zll SAM and leaf defects, because the aberrant pnh/zll phenotypes were partially rescued by either increasing levels of HD-ZIP III transcripts or decreasing levels of miR165/166 in the SAM and leaf. Furthermore, plants with an abnormal apex were more frequent among pnh/zll rdr6 and pnh/zll ago7 double mutants and increased levels of miR165/166 were detected in rdr6 apices. These results indicate that AGO10 and RDR6/AGO7 may act in parallel in modulating accumulation of miR165/166 for normal plant development.

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The Regulation of Sporopollenin Biosynthesis Genes for Rapid Pollen Wall Formation

Wang

et al. 2018

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Sporopollenin is the major component of the outer pollen wall (sexine). It is synthesized using a pathway of approximately eight genes in Arabidopsis (). MALE STERILITY188 (MS188) and its direct upstream regulator ABORTED MICROSPORES (AMS) are two transcription factors essential for tapetum development. Here, we show that all the sporopollenin biosynthesis proteins are specifically expressed in the tapetum and are secreted into anther locules. MS188, a MYB transcription factor expressed in the tapetum, directly regulates the expression of (), , (), and a CYTOCHROME P450 gene (). By contrast, the expression of , (), () and are significantly reduced in mutants but not affected in mutants. However, MS188 but not AMS can activate the expression of, , and In , dominant suppression of MS188 homologs reduced the expression of these genes, suggesting that MS188 and other MYB family members play redundant roles in activating their expression. The expression of some sporopollenin synthesis genes (, ,, , and) was rescued when was expressed in Therefore, MS188 is a key regulator for activation of sporopollenin synthesis, and AMS and MS188 may form a feed-forward loop that activates the expression of the sporopollenin biosynthesis pathway for rapid pollen wall formation.

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Slowing development restores the fertility of thermo-sensitive male-sterile plant lines

et al. 2020

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SDG2-Mediated H3K4 Methylation Is Required for Proper Arabidopsis Root Growth and Development

Yao

Feng

et al. 2013

PLoS ONE

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Trithorax group (TrxG) proteins are evolutionarily conserved in eukaryotes and play critical roles in transcriptional activation via deposition of histone H3 lysine 4 trimethylation (H3K4me3) in chromatin. Several Arabidopsis TrxG members have been characterized, and among them SET DOMAIN GROUP 2 (SDG2) has been shown to be necessary for global genome-wide H3K4me3 deposition. Although pleiotropic phenotypes have been uncovered in the sdg2 mutants, SDG2 function in the regulation of stem cell activity has remained largely unclear. Here, we investigate the sdg2 mutant root phenotype and demonstrate that SDG2 is required for primary root stem cell niche (SCN) maintenance as well as for lateral root SCN establishment. Loss of SDG2 results in drastically reduced H3K4me3 levels in root SCN and differentiated cells and causes the loss of auxin gradient maximum in the root quiescent centre. Elevated DNA damage is detected in the sdg2 mutant, suggesting that impaired genome integrity may also have challenged the stem cell activity. Genetic interaction analysis reveals that SDG2 and CHROMATIN ASSEMBLY FACTOR-1 act synergistically in root SCN and genome integrity maintenance but not in telomere length maintenance. We conclude that SDG2-mediated H3K4me3 plays a distinctive role in the regulation of chromatin structure and genome integrity, which are key features in pluripotency of stem cells and crucial for root growth and development.

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Auxin production in diploid microsporocytes is necessary and sufficient for early stages of pollen development

et al. 2018

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Gametophytic development in Arabidopsis depends on nutrients and cell wall materials from sporophytic cells. However, it is not clear whether hormones and signaling molecules from sporophytic tissues are also required for gametophytic development. Herein, we show that auxin produced by the flavin monooxygenases YUC2 and YUC6 in the sporophytic microsporocytes is essential for early stages of pollen development. The first asymmetric mitotic division (PMI) of haploid microspores is the earliest event in male gametophyte development. Microspore development in yuc2yuc6 double mutants arrests before PMI and consequently yuc2yuc6 fail to produce viable pollens. Our genetic analyses reveal that YUC2 and YUC6 act as sporophytic genes for pollen formation. We further show that ectopic production of auxin in tapetum, which provides nutrients for pollen development, fails to rescue the sterile phenotypes of yuc2yuc6. In contrast, production of auxin in either microsporocytes or microspores rescued the defects of pollen development in yuc2yuc6 double mutants. Our results demonstrate that local auxin biosynthesis in sporophytic microsporocytic cells and microspore controls male gametophyte development during the generation transition from sporophyte to male gametophyte.

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An Essential Role for miRNA167 in Maternal Control of Embryonic and Seed Development

et al. 2019

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Two types of cis‐acting elements control the abaxial epidermis‐specific transcription of the MIR165a and MIR166a genes

Yao

Wang

et al. 2009

FEBS Letters

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a b s t r a c tDuring leaf development, polarity formation is critical for leaf morphogenesis and functions. This process is regulated by several components including two microRNAs, miR165 and 166, which negatively regulate transcription factor genes PHABULOSA, PHAVOLUTA and REVOLUTA. Although miR165 and 166 are known to be accumulated in the abaxial leaf domain, how this pattern is determined is largely unknown. Here we report that the MIR165a and 166a genes are predominantly transcribed in the abaxial epidermis, and this transcript distribution pattern is controlled by two types of cis-acting elements. Our results suggest a model for the polar accumulation of MIR165 and 166 transcripts.

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Characterization of the AE7 gene in Arabidopsis suggests that normal cell proliferation is essential for leaf polarity establishment

Yuan

Luo

et al. 2010

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SUMMARYThe formation of leaf polarity is critical for leaf morphogenesis. In this study, we characterized and cloned an Arabidopsis gene, AS1/2 ENHANCER7 (AE7), which is required for both leaf adaxial-abaxial polarity formation and normal cell proliferation. The ae7 mutant exhibited leaf adaxial-abaxial polarity defects and double mutants combining ae7 with the leaf polarity mutants as1 (asymmetric leaves1), as2, rdr6 (RNA-dependent RNA polymerase6) or ago7/zip (argonaute7/zippy) all resulted in plants with an apparently enhanced loss of adaxial leaf identity. In addition, ae7 also showed decreased cell proliferation in both leaves and roots, compensated by increased cell sizes in leaves. AE7 encodes a protein conserved in many eukaryotic organisms, ranging from unicellular yeasts to humans; however, the functions of AE7 family members from other species have not been reported. In situ hybridization revealed that AE7 is expressed in a spotted pattern in plant tissues, similar to cell-cycle marker genes such as HISTONE4. Moreover, the ae7 endoploidy and expression analysis of several cell-cycle marker genes in ae7 suggest that the AE7 gene is required for cell cycle progression. As the previously characterized 26S proteasome and ribosome mutants also affect both leaf adaxial-abaxial polarity and cell proliferation, similar to the defects in ae7, we propose that normal cell proliferation may be essential for leaf polarity establishment. Possible models for how cell proliferation influences leaf adaxial-abaxial polarity establishment are discussed.

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Xiaozhen Yao

The ARGONAUTE10 gene modulates shoot apical meristem maintenance and establishment of leaf polarity by repressing miR165/166 in Arabidopsis

The Regulation of Sporopollenin Biosynthesis Genes for Rapid Pollen Wall Formation

Slowing development restores the fertility of thermo-sensitive male-sterile plant lines

SDG2-Mediated H3K4 Methylation Is Required for Proper Arabidopsis Root Growth and Development

Auxin production in diploid microsporocytes is necessary and sufficient for early stages of pollen development

An Essential Role for miRNA167 in Maternal Control of Embryonic and Seed Development

Two types of cis‐acting elements control the abaxial epidermis‐specific transcription of the MIR165a and MIR166a genes

Characterization of the AE7 gene in Arabidopsis suggests that normal cell proliferation is essential for leaf polarity establishment

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