Bax-induced cell death in tobacco is similar to the hypersensitive response. - Wikidata - awgldk - TriplyDB

Bax-induced cell death in tobacco is similar to the hypersensitive response.

Bax-induced cell death in tobacco is similar to the hypersensitive response.

http://www.wikidata.org/entity/Q36411566

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Surprising complexity of the ancestral apoptosis network AtBAG6, a novel calmodulin-binding protein, induces programmed cell death in yeast and plants The oat mitochondrial permeability transition and its implication in victorin binding and induced cell death A novel Arabidopsis gene causes Bax-like lethality in Saccharomyces cerevisiae Bacterial expression, purification and characterization of a rice voltage-dependent, anion-selective channel isoform, OsVDAC4.pH-sensitivity of YFP provides an intracellular indicator of programmed cell death Vesicle-associated membrane protein of Arabidopsis suppresses Bax-induced apoptosis in yeast downstream of oxidative burst.RNA-Seq reveals infection-related gene expression changes in Phytophthora capsici.A novel plant glutathione S-transferase/peroxidase suppresses Bax lethality in yeast.A R2R3-MYB gene, AtMYB30, acts as a positive regulator of the hypersensitive cell death program in plants in response to pathogen attack.Mammalian Bax-induced plant cell death can be down-regulated by overexpression of Arabidopsis Bax Inhibitor-1 (AtBI-1)A custom microarray analysis of gene expression during programmed cell death in Arabidopsis thaliana.Programmed cell death, mitochondria and the plant hypersensitive response.Pseudomonas type III effector AvrPtoB induces plant disease susceptibility by inhibition of host programmed cell death.Transcriptomic analysis reveals tomato genes whose expression is induced specifically during effector-triggered immunity and identifies the Epk1 protein kinase which is required for the host response to three bacterial effector proteins Overexpression of barley BAX inhibitor 1 induces breakdown of mlo-mediated penetration resistance to Blumeria graminis Identification of a drought-induced rice gene, OsSAP, that suppresses Bax-induced cell death in yeast.To die or not to die? Lessons from lesion mimic mutants Viruses as vectors for the expression of foreign sequences in plants.Phytophthora sojae effector PsCRN70 suppresses plant defenses in Nicotiana benthamiana.Expression of animal anti-apoptotic gene Ced-9 enhances tolerance during Glycine max L.-Bradyrhizobium japonicum interaction under saline stress but reduces nodule formation.Inhibitor of apoptosis (IAP)-like protein lacks a baculovirus IAP repeat (BIR) domain and attenuates cell death in plant and animal systems Regulation of plant defense responses in Arabidopsis by EDR2, a PH and START domain-containing protein.Pepper aldehyde dehydrogenase CaALDH1 interacts with Xanthomonas effector AvrBsT and promotes effector-triggered cell death and defence responses Candidate effector proteins of the necrotrophic apple canker pathogen Valsa mali can suppress BAX-induced PCD.Caspases. Regulating death since the origin of life.Abrogation of disease development in plants expressing animal antiapoptotic genes.Msp40 effector of root-knot nematode manipulates plant immunity to facilitate parasitism Programmed cell death in plants: lessons from bacteria?Studying the Mechanism of Plasmopara viticola RxLR Effectors on Suppressing Plant Immunity.Receptor-like kinase SOBIR1/EVR interacts with receptor-like proteins in plant immunity against fungal infection.De Novo Analysis of the Transcriptome of Meloidogyne enterolobii to Uncover Potential Target Genes for Biological Control Bax Inhibitor-1, a conserved cell death suppressor, is a key molecular switch downstream from a variety of biotic and abiotic stress signals in plants.Characterization of a Ran gene from Puccinia striiformis f. sp. tritici involved in fungal growth and anti-cell death.Identification of novel pepper genes involved in Bax- or INF1-mediated cell death responses by high-throughput virus-induced gene silencing.Expression of antiapoptotic genes bcl-xL and ced-9 in tomato enhances tolerance to viral-induced necrosis and abiotic stress.Comparative analysis of pre- and post-parasitic transcriptomes and mining pioneer effectors of Heterodera avenae Bax inhibitor-1: a highly conserved endoplasmic reticulum-resident cell death suppressor.The functions of voltage-dependent anion channels in plants.DNA damage response in plants: conserved and variable response compared to animals.

P2860

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P2860

Bax-induced cell death in tobacco is similar to the hypersensitive response.

http://www.wikidata.org/entity/Q36411566

description

1999 nî lūn-bûn

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1999年の論文

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1999年学术文章

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1999年学术文章

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1999年学术文章

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1999年学术文章

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1999年学术文章

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1999年學術文章

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1999年學術文章

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1999年學術文章

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name

Bax-induced cell death in tobacco is similar to the hypersensitive response.

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Bax-induced cell death in tobacco is similar to the hypersensitive response.

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type

label

Bax-induced cell death in tobacco is similar to the hypersensitive response.

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Bax-induced cell death in tobacco is similar to the hypersensitive response.

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prefLabel

Bax-induced cell death in tobacco is similar to the hypersensitive response.

@ast

Bax-induced cell death in tobacco is similar to the hypersensitive response.

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PNAS.96.14.7956

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Proceedings of the National Academy of Sciences of the United States of America

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Bax-induced cell death in tobacco is similar to the hypersensitive response.

@en

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Lacomme C

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Santa Cruz S

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P2860

Bcl-2 heterodimerizes in vivo with a conserved homolog, Bax, that accelerates programmed cell death

Regulation of cell death protease caspase-9 by phosphorylation

Proapoptotic protein Bax heterodimerizes with Bcl-2 and homodimerizes with Bax via a novel domain (BH3) distinct from BH1 and BH2

Bcl-2 and Bax function independently to regulate cell death

Mitochondria and apoptosis

Programmed cell death in animal development

Regulation of protein phosphatase 2A activity by caspase-3 during apoptosis.

Primary structure of the Aequorea victoria green-fluorescent protein.

Apoptotic pathways: the roads to ruin.

PROGRAMMED CELL DEATH IN PLANT-PATHOGEN INTERACTIONS.

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7956-7961

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scholarly article

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10.1073/PNAS.96.14.7956

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