Involvement of specific calmodulin isoforms in salicylic acid-independent activation of plant disease resistance responses.
about
There's more to the picture than meets the eye: nitric oxide cross talk with Ca2+ signalingThe solution structures of two soybean calmodulin isoforms provide a structural basis for their selective target activation propertiesStructural Studies of Soybean Calmodulin Isoform 4 Bound to the Calmodulin-binding Domain of Tobacco Mitogen-activated Protein Kinase Phosphatase-1 Provide Insights into a Sequential Target Binding ModeFunction of endoplasmic reticulum calcium ATPase in innate immunity-mediated programmed cell death.Isolation and characterization of a novel calmodulin-binding protein from potato.Transcriptomic analysis of Sorghum bicolor responding to combined heat and drought stress.Identification of calmodulin isoform-specific binding peptides from a phage-displayed random 22-mer peptide library.Mlo, a modulator of plant defense and cell death, is a novel calmodulin-binding protein. Isolation and characterization of a rice Mlo homologue.Characterization of a novel calcium/calmodulin-dependent protein kinase from tobacco.Direct interaction of a divergent CaM isoform and the transcription factor, MYB2, enhances salt tolerance in arabidopsis.Profiling of genes related to cross protection and competition for NbTOM1 by HLSV and TMVCalmodulin is involved in heat shock signal transduction in wheat.Positively selected disease response orthologous gene sets in the cereals identified using Sorghum bicolor L. Moench expression profiles and comparative genomics.The heterotrimeric G protein alpha subunit acts upstream of the small GTPase Rac in disease resistance of riceCalcium in plants.Expression analysis of calmodulin and calmodulin-like genes from rice, Oryza sativa L.Transgenic plants expressing cationic peptide chimeras exhibit broad-spectrum resistance to phytopathogens.Genome-wide identification and functional analyses of calmodulin genes in Solanaceous species.Involvement of calmodulin in regulation of primary root elongation by N-3-oxo-hexanoyl homoserine lactone in Arabidopsis thalianaKnockout of Arabidopsis accelerated-cell-death11 encoding a sphingosine transfer protein causes activation of programmed cell death and defense.The Arabidopsis dnd1 "defense, no death" gene encodes a mutated cyclic nucleotide-gated ion channelChanges of Nitric Oxide and Its Relationship with H2O2 and Ca2+ in Defense Interactions between Wheat and Puccinia TriticinaABC transporter PEN3/PDR8/ABCG36 interacts with calmodulin that, like PEN3, is required for Arabidopsis nonhost resistance.Pathogen-induced binding of the soybean zinc finger homeodomain proteins GmZF-HD1 and GmZF-HD2 to two repeats of ATTA homeodomain binding site in the calmodulin isoform 4 (GmCaM4) promoter.Transcriptome analysis of sweet orange trees infected with 'Candidatus Liberibacter asiaticus' and two strains of Citrus Tristeza VirusCalcium in plant defence-signalling pathways.The cotton MYB108 forms a positive feedback regulation loop with CML11 and participates in the defense response against Verticillium dahliae infection.The grateful dead: calcium and cell death in plant innate immunity.Plant calmodulins and calmodulin-related proteins: multifaceted relays to decode calcium signals.Calcium and calmodulin-mediated regulation of gene expression in plants.Cyclic nucleotide gated channels and related signaling components in plant innate immunity.Molecular communications between plant heat shock responses and disease resistanceCa2+ conduction by plant cyclic nucleotide gated channels and associated signaling components in pathogen defense signal transduction cascades.Coping with stresses: roles of calcium- and calcium/calmodulin-regulated gene expression.Pathogen- and NaCl-induced expression of the SCaM-4 promoter is mediated in part by a GT-1 box that interacts with a GT-1-like transcription factor.BWMK1, a rice mitogen-activated protein kinase, locates in the nucleus and mediates pathogenesis-related gene expression by activation of a transcription factor.CBL1, a calcium sensor that differentially regulates salt, drought, and cold responses in Arabidopsis.A novel rice calmodulin-like gene, OsMSR2, enhances drought and salt tolerance and increases ABA sensitivity in Arabidopsis.Proteins differentially expressed in elicited cell suspension culture of Podophyllum hexandrum with enhanced podophyllotoxin content.Molecular Characterization of the Broad-Spectrum Resistance to Powdery Mildew Conferred by the Stpk-V Gene from the Wild Species Haynaldia villosa.
P2860
Q27011719-F6210057-9E96-4409-BEA0-720B80F762CFQ27650095-44A19EDA-A975-4FBA-AE0D-F926489F28A0Q27656954-0406BD69-547A-4336-BCB3-964540DA168BQ30493627-B987B5CF-1346-4630-B99F-899C063A9E36Q30757831-955D4078-A3F4-4547-8B8A-03F19A5A1423Q30830285-BE2EB064-46E5-4949-861F-3319DC4F5F88Q31043188-58C00CCE-C434-4EBD-91A7-DB69E1F8D273Q31043600-C6602DDC-D950-4E5B-9C39-676ACE25D860Q31091724-05AB59E3-1519-4D84-876E-6FBA49CED04AQ31132991-5F9ACC73-C0C3-41A7-9FAF-9A8BB999C2C7Q31138257-CABEFECC-F91D-4E81-9A4F-ED2D52709BEBQ31149413-DEC71503-9E2C-4431-ABAE-700066D803C5Q33464068-780FD43B-E6BF-4918-B203-294E2D8A7E29Q34192648-AC5FD7DD-4D30-411B-8B8E-394491E96F3BQ34224629-2ABAA3D4-AEB9-403F-97FB-F9B5F654B976Q34470527-8AE98141-9923-4819-85D9-5ACF4CE35848Q34511736-3DD026BF-7B6C-4F72-9898-BC326B372C7CQ34690321-AC6D61D9-B97D-4EDB-BE34-E21B03C470C4Q34933077-3E39F37C-6E2E-47DC-A91A-4583BB57324DQ35005430-93A70C5F-FF73-4C9A-843B-0BE425484E44Q35204727-43DE12D1-269E-4011-8F36-A600A5A3D6B2Q35694356-408EBEE0-1FF1-46EF-BAFC-405E0DDEC0F8Q35757931-A52D7CB6-B001-4634-9EE5-F82388C42A58Q35893851-EFF2B25A-5A39-4C91-BCA3-77713024BD7CQ36014928-1607C5C6-D703-46D3-83CC-68F0DC3EA9AFQ36546545-6BC6CD75-D91D-4B5B-AF65-844FF2778C96Q36665519-3005FF48-1237-45D1-9005-FE5961752582Q36917165-60920CFA-DAFA-4B64-8BEC-38DCF24859CAQ37081832-9167F279-EEAF-4D3A-93C8-F7D431D92500Q37091490-5E23B18E-2B11-426B-8989-1FBE08989F7FQ37148103-815E7B36-FAD0-411C-B92E-7FCD5EB53188Q37461945-F12E6266-A9E1-47B5-919D-52A0F4E218BFQ37821963-5AEC98FA-E5CA-498B-8F52-4135E45A4751Q37885101-B196B79B-C79D-4E92-A01E-FC105E8480C4Q38337757-0883E46C-3286-4772-AF13-34DD1AC1FEA7Q38519761-0418D5D6-1474-4E96-BD83-D670C184F221Q38943286-522FA0F8-69DC-4B9C-9A50-7F1AB3690588Q39608530-EE1CAFD9-2BC4-4CB2-8B7D-0CAA4988439BQ39614121-0B579EC4-26A7-4765-8C42-D5BDB4C6E65AQ40062621-67F4A7AB-6CD4-4AF5-B7D9-F4C4F4B213A3
P2860
Involvement of specific calmodulin isoforms in salicylic acid-independent activation of plant disease resistance responses.
description
1999 nî lūn-bûn
@nan
1999 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Involvement of specific calmod ...... disease resistance responses.
@ast
Involvement of specific calmod ...... disease resistance responses.
@en
Involvement of specific calmod ...... disease resistance responses.
@nl
type
label
Involvement of specific calmod ...... disease resistance responses.
@ast
Involvement of specific calmod ...... disease resistance responses.
@en
Involvement of specific calmod ...... disease resistance responses.
@nl
prefLabel
Involvement of specific calmod ...... disease resistance responses.
@ast
Involvement of specific calmod ...... disease resistance responses.
@en
Involvement of specific calmod ...... disease resistance responses.
@nl
P2093
P2860
P356
P1476
Involvement of specific calmod ...... disease resistance responses.
@en
P2093
P2860
P304
P356
10.1073/PNAS.96.2.766
P407
P577
1999-01-01T00:00:00Z