Ting Ma scite author profile

Phosphatase of regenerating liver (PRL-3) promotes cell invasiveness, but its role in genomic integrity remains unknown. We report here that shelterin component RAP1 mediates association between PRL-3 and TRF2. In addition, TRF2 and RAP1 assist recruitment of PRL-3 to telomeric DNA. Silencing of PRL-3 in colon cancer cells does not affect telomere integrity or chromosomal stability, but induces reactive oxygen species-dependent DNA damage response and senescence. However, overexpression of PRL-3 in colon cancer cells and primary fibroblasts promotes structural abnormalities of telomeres, telomere deprotection, DNA damage response, chromosomal instability and senescence. Furthermore, PRL-3 dissociates RAP1 and TRF2 from telomeric DNA in vitro and in cells. PRL-3-promoted telomere deprotection, DNA damage response and senescence are counteracted by disruption of PRL-3–RAP1 complex or expression of ectopic TRF2. Examination of clinical samples showed that PRL-3 status positively correlates with telomere deprotection and senescence. PRL-3 transgenic mice exhibit hallmarks of telomere deprotection and senescence and are susceptible to dextran sodium sulfate-induced colon malignancy. Our results uncover a novel role of PRL-3 in tumor development through its adverse impact on telomere homeostasis.

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Arabidopsis CBP60b is a central transcriptional activator of immunity

Ying

et al. 2021

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Plants use a dual defense system to cope with microbial pathogens. The first involves pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) which is conferred by membrane receptors, and the second involves effector-triggered immunity (ETI), which is conferred by disease-resistance proteins (nucleotide-binding leucine-rich repeat containing proteins; NLRs). Calmodulin-Binding Protein 60 (CBP60) family transcription factors are crucial for pathogen defense: CBP60g and Systemic Acquired Resistance Deficient 1 (SARD1) positively regulate immunity, whereas CBP60a negatively regulates immunity. The roles of other Arabidopsis (Arabidopsis thaliana) CBP60s remain unclear. We report that CBP60b positively regulates immunity, and is redundant with—yet distinct from—CBP60g and SARD1. By combining ChIP-PCRs and luciferase (LUC) reporter assays, we demonstrate that CBP60b is a transcriptional activator of immunity genes. Surprisingly, CBP60b loss-of-function results in autoimmunity, exhibiting a phenotype similar to that of CBP60b gain-of-function. Mutations at the EDS1-PAD4-dependent (ENHANCED DISEASE SUSCEPTIBILITY 1– PHYTOALEXIN DEFICIENT 4) ETI pathway fully suppressed the defects of CBP60b loss-of-function but not those of CBP60b gain-of-function, suggesting that CBP60b is monitored by NLRs. Functional loss of SUPPRESSOR OF NPR1-1, CONSTITUTIVE 1 (SNC1), an R-gene, partially rescued the phenotype of cbp60b, further supporting that CBP60b is a protein targeted by pathogen effectors, i.e., a guardee. Unlike CBP60g and SARD1, CBP60b is constitutively and highly expressed in unchallenged plants. Transcriptional and genetic studies further suggest that CBP60b plays a role redundant with CBP60g and SARD1 in pathogen-induced defense, whereas CBP60b has a distinct role in basal defense, partially via direct regulation of CBP60g and SARD1.

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Arabidopsis VAC14 Is Critical for Pollen Development through Mediating Vacuolar Organization

Zhang

Guo

et al. 2018

Plant Physiol.

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Pollen viability depends on dynamic vacuolar changes during pollen development involving increases and decreases of vacuolar volume through water and osmolite accumulation and vacuolar fission. Mutations in to, the genes encoding phosphatidylinositol 3,5-bisphosphate [PI(3,5)P]-converting kinases, are male gametophyte lethal in Arabidopsis () due to defective vacuolar fission after pollen mitosis I, suggesting a key role of the phospholipid in dynamic vacuolar organization. However, other genetic components that regulate the production of PI(3,5)P and its involvement in pollen germination and tube growth are unknown. Here, we identified and characterized Arabidopsis VAC14, a homolog of the yeast and metazoan VAC14s that are crucial for the production of PI(3,5)P is constitutively expressed and highly present in developing pollen. Loss of function of was male gametophyte lethal due to defective pollen development. Ultrastructural studies showed that vacuolar fission after pollen mitosis I was compromised in mutant microspores, which led to pollen abortion. We further showed that inhibiting the production of PI(3,5)P or exogenous application of PI(3,5)P mimicked or rescued the pollen developmental defect of the mutant, respectively. Genetic interference and pharmacological approaches suggested a role of PI(3,5)P in pollen germination and tube growth. Our results provide insights into the function of VAC14 and, by inference, that of PI(3,5)P in plant cells.

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The Arabidopsis R‐SNARE protein YKT61 is essential for gametophyte development

et al. 2020

JIPB

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Gametophyte development is a pre‐requisite for plant reproduction and seed yield; therefore, studies of gametophyte development help us understand fundamental biological questions and have potential applications in agriculture. The biogenesis and dynamics of endomembrane compartments are critical for cell survival, and their regulatory mechanisms are just beginning to be revealed. Here, we report that the Arabidopsis thaliana SNARE (soluble N‐ethylmaleimide sensitive factor attachment protein receptor) protein YKT61 is essential for both male and female gametogenesis. By using clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR‐associated protein 9 (Cas9)‐based genome editing, we demonstrated that male and female gametophytes carrying YKT61 loss‐of‐function alleles do not survive. Specifically, loss of YKT61 function resulted in the arrest of male gametophytic development at pollen mitosis I and the degeneration of female gametophytes. A three‐base‐pair deletion in YKT61 in the ykt61‐3 mutant resulted in a single‐amino acid deletion in the longin domain of YKT61; the resulting mutant protein does not interact with multiple SNAREs and showed substantially reduced membrane association, suggesting that the N‐terminal longin domain of YKT61 plays multiple roles in its function. This study demonstrates that Arabidopsis YKT61 is essential for male and female gametogenesis and sets an example for functional characterization of essential genes with the combination of Cas9‐mediated editing and expression from a Cas9‐resistant transgene.

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ArabidopsisRAN GTPases are critical for mitosis during male and female gametogenesis

Qin

Sun

et al. 2022

FEBS Letters

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The development of male and female gametophytes is a prerequisite for successful propagation of angiosperms. The small GTPases RAN play fundamental roles in numerous cellular processes. Although RAN GTPases have been characterized in plants, their roles in cellular processes are far from understood. We report here that RAN GTPases in Arabidopsis are critical for gametophytic development. RAN1 loss‐of‐function showed no defects in gametophytic development likely due to redundancy. However, the expression of a dominant negative or constitutively active RAN1 resulted in gametophytic lethality. Genetic interference of RAN GTPases caused the arrest of pollen mitosis I and of mitosis of functional megaspores, implying a key role of properly regulated RAN activity in mitosis during gametophytic development.

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Ting Ma

PRL-3 promotes telomere deprotection and chromosomal instability

Arabidopsis CBP60b is a central transcriptional activator of immunity

Arabidopsis VAC14 Is Critical for Pollen Development through Mediating Vacuolar Organization

The Arabidopsis R‐SNARE protein YKT61 is essential for gametophyte development

ArabidopsisRAN GTPases are critical for mitosis during male and female gametogenesis

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