A Toll-interleukin 1 repeat protein at the synapse specifies asymmetric odorant receptor expression via ASK1 MAPKKK signaling.
about
Japanese studies on neural circuits and behavior of Caenorhabditis elegansSLO BK Potassium Channels Couple Gap Junctions to Inhibition of Calcium Signaling in Olfactory Neuron DiversificationTissue expression pattern of PMK-2 p38 MAPK is established by the miR-58 family in C. elegansRFX transcription factor DAF-19 regulates 5-HT and innate immune responses to pathogenic bacteria in Caenorhabditis elegansThe microRNA mir-71 inhibits calcium signaling by targeting the TIR-1/Sarm1 adaptor protein to control stochastic L/R neuronal asymmetry in C. elegansPhosphorylation of the conserved transcription factor ATF-7 by PMK-1 p38 MAPK regulates innate immunity in Caenorhabditis elegansThe many faces of SAMMyD88-5 links mitochondria, microtubules, and JNK3 in neurons and regulates neuronal survivalSarm1, a negative regulator of innate immunity, interacts with syndecan-2 and regulates neuronal morphologyMaking a difference together: reciprocal interactions in C. elegans and zebrafish asymmetric neural developmentHeterotaxy in Caenorhabditis: widespread natural variation in left-right arrangement of the major organsMicrotubule-based localization of a synaptic calcium-signaling complex is required for left-right neuronal asymmetry in C. elegans.Large-scale RNAi screens identify novel genes that interact with the C. elegans retinoblastoma pathway as well as splicing-related components with synMuv B activity.Anti-fungal innate immunity in C. elegans is enhanced by evolutionary diversification of antimicrobial peptidesSARM regulates CCL5 production in macrophages by promoting the recruitment of transcription factors and RNA polymerase II to the Ccl5 promoter.Three-tier regulation of cell number plasticity by neurotrophins and Tolls in Drosophila.The HMX/NKX homeodomain protein MLS-2 specifies the identity of the AWC sensory neuron type via regulation of the ceh-36 Otx gene in C. elegans.A comprehensive analysis of gene expression changes provoked by bacterial and fungal infection in C. elegans.C. elegans positive olfactory associative memory is a molecularly conserved behavioral paradigm.Regulation of anoxic death in Caenorhabditis elegans by mammalian apoptosis signal-regulating kinase (ASK) family proteins.Caenorhabditis elegans senses bacterial autoinducers.TLR8: an innate immune receptor in brain, neurons and axons.Detection and avoidance of a natural product from the pathogenic bacterium Serratia marcescens by Caenorhabditis elegansSpecificity and complexity of the Caenorhabditis elegans innate immune response.Caenorhabditis elegans as a model for innate immunity to pathogens.Postmitotic diversification of olfactory neuron types is mediated by differential activities of the HMG-box transcription factor SOX-2.Intercellular calcium signaling in a gap junction-coupled cell network establishes asymmetric neuronal fates in C. elegans.Left-right olfactory asymmetry results from antagonistic functions of voltage-activated calcium channels and the Raw repeat protein OLRN-1 in C. elegans.Caenorhabditis elegans pgp-5 is involved in resistance to bacterial infection and heavy metal and its regulation requires TIR-1 and a p38 map kinase cascadeDistinct innate immune responses to infection and wounding in the C. elegans epidermis.Context Specificity of Stress-activated Mitogen-activated Protein (MAP) Kinase Signaling: The Story as Told by Caenorhabditis elegans.Excitotoxicity upregulates SARM1 protein expression and promotes Wallerian-like degeneration of retinal ganglion cells and their axons.Immune defense mechanisms in the Caenorhabditis elegans intestinal epithelium.The negative regulation of Toll-like receptor and associated pathways.Sarm1-mediated axon degeneration requires both SAM and TIR interactionsTranscriptional regulation and stabilization of left-right neuronal identity in C. elegans.SARM1 and TRAF6 bind to and stabilize PINK1 on depolarized mitochondria.A Toll receptor-FoxO pathway represses Pavarotti/MKLP1 to promote microtubule dynamics in motoneurons.Attenuated traumatic axonal injury and improved functional outcome after traumatic brain injury in mice lacking Sarm1.SARM1-specific motifs in the TIR domain enable NAD+ loss and regulate injury-induced SARM1 activation.
P2860
Q27026099-B1D26A89-7261-46E6-B116-616FEDA426D1Q27310064-A741D0B8-1D8B-45E8-BB58-1AD7D735588AQ27311477-B5670DDC-8878-4744-849C-5D4871526D9AQ27324335-A02D5147-6955-4B82-AD56-1D978054E6A0Q27332210-4E512CFC-FF44-43DC-8885-C3E0A4473D0FQ27347875-98475B33-7CF0-424C-B18F-6498F908A162Q28253873-5A0BFC33-C784-4A00-A9C8-6F57C6CF1D6BQ28512388-4FA5F6C1-929A-410A-AC7F-AEC0D8CF4968Q28585237-DF96F3A8-B23A-438E-8685-07FE9CA0768FQ28748749-9855D9F9-CF49-4A4D-9DCC-89705122F219Q28821634-6FC7455B-6C3E-45D2-90BF-5745D9751BDCQ30502835-A30EA28C-35C0-4B1B-AD48-6153D79F2BB6Q33281494-B6284E92-167F-461D-B2FD-80B6248A8FB0Q33352702-E8C0CC00-BCC5-4429-8D31-42223CD192E9Q33613014-2D7EBEC6-EDAD-4FCD-BACC-D07E78E1732EQ33625318-BCD9A040-8371-42A8-9198-CE269DDCC613Q33710905-0EB61B58-C479-4BAA-9C1B-15FC23587D2EQ33908204-669A2353-0DF7-45F8-814D-2E16774BF750Q34603005-6B9FF251-D3AC-4257-949E-BCC7C9C64524Q34714959-3C276913-5D2B-4BD5-B8F3-4B1E9CA91139Q34718733-9A4883B0-2328-42AD-8637-6B4E72BB39CFQ35047901-845C9096-6322-4AA8-BBF4-161666F809AAQ35844548-D552E1D9-E832-49AD-8411-62AB0F1349DCQ35950030-058F3616-C6A9-4C85-906F-3BFDED61F9E1Q36124151-5F31DDBF-88BA-4B20-8A4D-5D97AF92D6E9Q36172273-94073BDC-8011-4AF3-8471-999A30B12659Q36340150-F79F1F77-F6E2-4526-B175-C257ECDFC91AQ36405011-362680A9-F35B-4E15-B065-2BA230AB42E9Q36512954-47B640F6-2C42-4F7F-98A6-6D07469F491BQ36672001-53BC6CE1-E579-4FDA-A870-E9AED997E02CQ36778723-307191A2-5023-402A-8E9B-BDB9DA2250F4Q36784085-EAF1BF5E-64F5-49BF-A23C-76AAC3BDEA96Q36864793-A1C16991-1299-480B-8C00-B472830DB15DQ36875508-D1B135C0-81E1-4A3B-A15A-FE862571D0B6Q37093933-D8DF0448-E3E8-4B1E-82C0-8D9F61AD6DA6Q37111132-CA980AED-BD1D-49E7-A45C-59F807310DD8Q37167886-EAEDCAF0-4393-40EF-8899-102BB1634120Q37180571-C8210E8B-C9FC-4955-9C89-8CDCC279A80EQ37220568-B613B3DA-C0F6-4DC7-B08D-575112873D53Q37346739-C56DDE57-62F0-4662-B851-E8CCF3B3A480
P2860
A Toll-interleukin 1 repeat protein at the synapse specifies asymmetric odorant receptor expression via ASK1 MAPKKK signaling.
description
2004 nî lūn-bûn
@nan
2004 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
A Toll-interleukin 1 repeat pr ...... ion via ASK1 MAPKKK signaling.
@ast
A Toll-interleukin 1 repeat pr ...... ion via ASK1 MAPKKK signaling.
@en
type
label
A Toll-interleukin 1 repeat pr ...... ion via ASK1 MAPKKK signaling.
@ast
A Toll-interleukin 1 repeat pr ...... ion via ASK1 MAPKKK signaling.
@en
prefLabel
A Toll-interleukin 1 repeat pr ...... ion via ASK1 MAPKKK signaling.
@ast
A Toll-interleukin 1 repeat pr ...... ion via ASK1 MAPKKK signaling.
@en
P2860
P356
P1433
P1476
A Toll-interleukin 1 repeat pr ...... sion via ASK1 MAPKKK signaling
@en
P2093
Chiou-Fen Chuang
P2860
P304
P356
10.1101/GAD.1276505
P577
2004-12-29T00:00:00Z