Different import pathways through the mitochondrial intermembrane space for inner membrane proteins.
about
The 2-5A/RNase L/RNase L inhibitor (RLI) [correction of (RNI)] pathway regulates mitochondrial mRNAs stability in interferon alpha-treated H9 cellsOrganization and function of the small Tim complexes acting along the import pathway of metabolite carriers into mammalian mitochondriaFunctional analysis of subunit e of the F1Fo-ATP synthase of the yeast Saccharomyces cerevisiae: importance of the N-terminal membrane anchor regionFormation of membrane-bound ring complexes by prohibitins in mitochondriaThe role of the TIM8-13 complex in the import of Tim23 into mitochondriaThe role of the Tim8p-Tim13p complex in a conserved import pathway for mitochondrial polytopic inner membrane proteinsThe function of genomes in bioenergetic organellesSurvey of human mitochondrial diseases using new genomic/proteomic toolsThe Tim8–Tim13 Complex Has Multiple Substrate Binding Sites and Binds Cooperatively to Tim23Functional reconstitution of the import of the yeast ADP/ATP carrier mediated by the TIM10 complexA new function in translocation for the mitochondrial i-AAA protease Yme1: import of polynucleotide phosphorylase into the intermembrane space.Characterization of Mmp37p, a Saccharomyces cerevisiae mitochondrial matrix protein with a role in mitochondrial protein import.Tim18p, a new subunit of the TIM22 complex that mediates insertion of imported proteins into the yeast mitochondrial inner membraneTim54p connects inner membrane assembly and proteolytic pathways in the mitochondrion.TIM29 is a subunit of the human carrier translocase required for protein transportThe COQ2 genotype predicts the severity of coenzyme Q10 deficiencyRole of the deafness dystonia peptide 1 (DDP1) in import of human Tim23 into the inner membrane of mitochondriaThe C66W mutation in the deafness dystonia peptide 1 (DDP1) affects the formation of functional DDP1.TIM13 complexes in the mitochondrial intermembrane spaceFrom structure to redox: The diverse functional roles of disulfides and implications in disease.Juxtaposition of the two distal CX3C motifs via intrachain disulfide bonding is essential for the folding of Tim10.Reconstituted TOM core complex and Tim9/Tim10 complex of mitochondria are sufficient for translocation of the ADP/ATP carrier across membranes.Substrate specificity of the TIM22 mitochondrial import pathway revealed with small molecule inhibitor of protein translocationThe yeast proteome database (YPD) and Caenorhabditis elegans proteome database (WormPD): comprehensive resources for the organization and comparison of model organism protein information.Biogenesis of mitochondrial inner membrane proteins.Protein translocation pathways of the mitochondrion.Presence of a member of the mitochondrial carrier family in hydrogenosomes: conservation of membrane-targeting pathways between hydrogenosomes and mitochondria.The essential function of the small Tim proteins in the TIM22 import pathway does not depend on formation of the soluble 70-kilodalton complexPreviously uncharacterized genes in the UV- and MMS-induced DNA damage response in yeastThe Tim9p-Tim10p complex binds to the transmembrane domains of the ADP/ATP carrierThe protein import machinery of the mitochondrial membranes.Hsp90 functions in the targeting and outer membrane translocation steps of Tom70-mediated mitochondrial import.The Tim9p/10p and Tim8p/13p complexes bind to specific sites on Tim23p during mitochondrial protein importMitochondrial assembly: protein import.Endogenous synthesis of coenzyme Q in eukaryotes.Two intermembrane space TIM complexes interact with different domains of Tim23p during its import into mitochondria.Mitochondrial protein import and human health and disease.Folding and biogenesis of mitochondrial small Tim proteins.Presenilins are enriched in endoplasmic reticulum membranes associated with mitochondria.The power of yeast to model diseases of the powerhouse of the cell.The Taz1p transacylase is imported and sorted into the outer mitochondrial membrane via a membrane anchor domain.
P2860
028dd2e5ea8de3ed76c68c20f4f0bd0ff982cf26188d679495501d94b6f7e1254e595007870fcc5f2d0dc05d13bf212c155b4b0e99ef62338c8a5cad3390b6a6016fc47706dde180eed4bd4045ce88f035bf5f19735b29ed16474818f4af896e9f90427d5309d226cbb428f4171831bb7efe9dd3e0deb05a5726a7e3e5091ee5c7aad513669c0ade6d2ebdb8764edf18c4016be7528764ea5e5aaabc07675c5e76ba92191e1151337ffcbba3a62563c01515a2a28e8e6196a2dfca7df0fcf97114e7c5472e59e76b9e258fcd2790a4107702ec98016b24b1d1719a13
P248
Q24291754-6ECC77CE-33A4-42CE-BBFA-34FE42408474Q24305057-5C164D29-ECC4-486E-8D1E-315750C3776FQ24556633-7D2046FD-B2EE-4144-9C33-D355E621512FQ24558660-C77EFF16-53C2-43BD-B572-1F4AFC49664AQ24595895-2018E78E-0172-438B-B83B-B93875DA81F3Q24673610-CCECF872-3916-4BDB-8421-3F32412ABA51Q24675894-F84A1487-4750-406E-9E10-7D93956CE5A7Q24800122-345C83E1-4E05-419B-9F23-3D278A3387A0Q27651629-48AAA7F7-C232-45F8-A0D9-B2803A34378DQ27930731-27326089-D0F9-4E07-8D45-B07C163D2002Q27932867-7E34AC01-7E2F-4CFF-A0E3-C6B78F60E3D9Q27934449-70E307C2-ABF3-46AD-ABF1-01D587ECE498Q27936327-2AB3C1D5-0B13-4705-978E-A4FFE149558DQ27936487-97E6C168-595A-4560-90B7-82F13703132CQ28118577-5073A30F-407B-4726-B453-A90EB2FCA64DQ28118957-7AF99EB6-8193-4EFA-A7A2-3A473E014B66Q28211318-B7C19229-9AA8-4F6D-A317-E281D87AE02AQ28214870-8BA41E66-9E2E-4427-9D02-1859A7C750B4Q30397007-F8BB975F-F392-4594-AA42-2A626CE4E9AAQ30969937-CB5575B9-B981-4B65-8BAF-FB71CB1711E7Q31032213-4ABA1BD6-BB34-4712-94C8-735525FD5590Q33574368-1BA1858F-E923-4C95-A255-C10891645AB6Q33610188-2729E34A-92D4-4127-860A-FBA801B572C2Q33786902-9A3340C8-3DC9-425D-B99C-0C54F0A7A5C9Q33957089-97DCA2B1-CF3E-4A67-B7EC-6CFD6822023BQ33962623-39CBF1FE-3BB0-4607-9824-AE4D8804EAACQ33969428-B045E550-F058-4C4D-818B-639511323C65Q34075261-D0A3E914-771F-48C9-B90D-B60896136434Q34086079-4EE576A2-C8CC-4EBD-8D4B-630AAD2B5447Q34156674-0A6F7FF6-1A42-4687-9DBE-AE0B5BB921D5Q34565583-16B07913-814F-4287-B5AA-B13AB16DE884Q35613439-F486EC23-1B86-4E9D-ADE5-BB0C59278557Q35855958-597E08EA-8A3D-47C2-A2FD-636AC2F36532Q35987676-326BD3D2-1E8C-42D6-8CAE-0A6403E7509AQ36293778-B612288F-B212-4F13-BC42-ED87254374BEQ36735868-CB67B245-C22E-4A4F-8E22-6D4B591BA6A3Q37139210-E847F564-255B-465C-A201-68B84633880AQ37413630-B427CE68-1A80-4458-A57C-09151F7294CFQ37418894-4AB0F85F-99B7-4722-86C3-A03FF229851EQ37469564-901886C6-6EAE-422F-917D-1AC0320A3830
P2860
Different import pathways through the mitochondrial intermembrane space for inner membrane proteins.
description
1999 nî lūn-bûn
@nan
1999 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի սեպտեմբերին 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
Different import pathways thro ...... e for inner membrane proteins.
@ast
Different import pathways thro ...... e for inner membrane proteins.
@en
Different import pathways thro ...... e for inner membrane proteins.
@nl
type
label
Different import pathways thro ...... e for inner membrane proteins.
@ast
Different import pathways thro ...... e for inner membrane proteins.
@en
Different import pathways thro ...... e for inner membrane proteins.
@nl
prefLabel
Different import pathways thro ...... e for inner membrane proteins.
@ast
Different import pathways thro ...... e for inner membrane proteins.
@en
Different import pathways thro ...... e for inner membrane proteins.
@nl
P2093
P356
P1433
P1476
Different import pathways thro ...... e for inner membrane proteins.
@en
P2093
Koehler CM
Leuenberger D
P304
P356
10.1093/EMBOJ/18.17.4816
P407
P577
1999-09-01T00:00:00Z