Transport of nuclear-encoded proteins into secondarily evolved plastids.
about
The endosymbiotic origin, diversification and fate of plastidsAn unusual ERAD-like complex is targeted to the apicoplast of Plasmodium falciparumProtein targeting and transport as a necessary consequence of increased cellular complexityEvidence for glycoprotein transport into complex plastidsWere class C iron-containing superoxide dismutases of trypanosomatid parasites initially imported into a complex plastid? A hypothesis based on analyses of their N-terminal targeting signals.The physical and functional borders of transit peptide-like sequences in secondary endosymbionts.A single peroxisomal targeting signal mediates matrix protein import in diatomsIn silico and in vivo investigations of proteins of a minimized eukaryotic cytoplasm.Plasmodial HSP70s are functionally adapted to the malaria parasite life cycleDistribution of the SELMA translocon in secondary plastids of red algal origin and predicted uncoupling of ubiquitin-dependent translocation from degradation.The chloroplast genome of Pellia endiviifolia: gene content, RNA-editing pattern, and the origin of chloroplast editing.Toxoplasma gondii Tic20 is essential for apicoplast protein import.Getting a better picture of microbial evolution en route to a network of genomes.Making new out of old: recycling and modification of an ancient protein translocation system during eukaryotic evolution. Mechanistic comparison and phylogenetic analysis of ERAD, SELMA and the peroxisomal importomer.Review: origin of complex algae by secondary endosymbiosis: a journey through time.Proteomics reveals plastid- and periplastid-targeted proteins in the chlorarachniophyte alga Bigelowiella natans.Massively convergent evolution for ribosomal protein gene content in plastid and mitochondrial genomes.ERAD components in organisms with complex red plastids suggest recruitment of a preexisting protein transport pathway for the periplastid membrane.Glycoprotein import: a common feature of complex plastids?Transketolase from Cyanophora paradoxa: in vitro import into cyanelles and pea chloroplasts and a complex history of a gene often, but not always, transferred in the context of secondary endosymbiosis.Iron-Sulfur Cluster Biosynthesis in Algae with Complex Plastids
P2860
Q24652975-C71FE268-8543-49E7-956C-ECDD7E31B558Q27973185-2340D894-0A3D-418E-97FA-D19EF0072FACQ28655431-2FD3A7C6-2138-4397-8583-081D26896EA0Q28680792-EC0D08FA-B0AC-4CEA-8A0D-AF0FB4B499A6Q33351125-9FE78502-38BC-4705-8400-CCA218A238E5Q33722769-85B435DE-F1FB-4E64-B3ED-C289B3DAD0D7Q34038216-B4E86931-ABAB-4201-95C6-345A0105A325Q35003137-7D3C3E72-50FC-4379-854C-64C6D75352CFQ35782885-A8CA2413-7148-4106-B393-731A38909EE2Q36506506-218D397D-8D37-4C1A-9BDE-EEEC946556CDQ36525025-C3E0D665-067D-4297-8E8A-37558FCEAC86Q36869985-76947975-4CDE-44DF-83CF-339A2E6240A4Q37538139-B1CC24BD-E769-4432-8247-45D8FB82C140Q37855729-60679761-9D55-471D-9127-B1F5DC1A666FQ38558115-71F36C23-69AF-468E-A720-F89D5529117FQ41790768-A532DF8F-24CC-41CF-8D4B-D9036119AD7CQ41849131-747DC731-06AC-40BA-87C5-300C501F9CA8Q42246789-7503CE7F-01DE-46A7-8290-6B63BF6F8132Q42729168-266EC4C1-BF66-4B6A-BB60-6E85CD36C51FQ43250291-711E7351-4532-45F0-8C02-44A0BEBB174EQ58802975-9F0E8846-FB6A-4078-AF91-F5529B3D6792
P2860
Transport of nuclear-encoded proteins into secondarily evolved plastids.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Transport of nuclear-encoded proteins into secondarily evolved plastids.
@en
type
label
Transport of nuclear-encoded proteins into secondarily evolved plastids.
@en
prefLabel
Transport of nuclear-encoded proteins into secondarily evolved plastids.
@en
P2093
P2860
P356
P1433
P1476
Transport of nuclear-encoded proteins into secondarily evolved plastids.
@en
P2093
Andrew Bozarth
Franziska Hempel
Jude M Przyborski
Maik S Sommer
Stefan Zauner
Uwe-G Maier
P2860
P304
P356
10.1515/BC.2007.119
P577
2007-09-01T00:00:00Z