scholarly article | Q13442814 |
P50 | author | Jerry Eichler | Q56480904 |
P2093 | author name string | Zvia Konrad | |
P2860 | cites work | The ins(ide) and out(side) of dolichyl phosphate biosynthesis and recycling in the endoplasmic reticulum | Q28610119 |
Peptide mapping by limited proteolysis in sodium dodecyl sulfate and analysis by gel electrophoresis | Q29547747 | ||
Recent advances in the study of prenylated proteins | Q33889074 | ||
Sterols and isoprenoids: signaling molecules derived from the cholesterol biosynthetic pathway | Q33953548 | ||
Cell-cycle-specific interaction of nuclear DNA-binding proteins with a CCAAT sequence from the human thymidine kinase gene | Q34370119 | ||
Crystalline bacterial cell-surface layers | Q34563551 | ||
Structural (shape-maintaining) role of the cell surface glycoprotein of Halobacterium salinarium | Q35015946 | ||
Novel glycoproteins of the halophilic archaeon Haloferax volcanii. | Q38310528 | ||
Halobacterial glycoprotein biosynthesis | Q39462247 | ||
Primary structure and glycosylation of the S-layer protein of Haloferax volcanii | Q39952123 | ||
Genetic transfer in Halobacterium volcanii. | Q39980511 | ||
Biology of halophilic bacteria, Part II. Membrane lipids of extreme halophiles: biosynthesis, function and evolutionary significance | Q40795359 | ||
Recognition of the carboxyl-terminal signal for GPI modification requires translocation of its hydrophobic domain across the ER membrane | Q40969377 | ||
Three-dimensional structure of the regular surface glycoprotein layer of Halobacterium volcanii from the Dead Sea. | Q41114174 | ||
Bacterial glycoproteins. | Q41390685 | ||
Glycoproteins in prokaryotes | Q41650848 | ||
Mevinolin-resistant mutations identify a promoter and the gene for a eukaryote-like 3-hydroxy-3-methylglutaryl-coenzyme A reductase in the archaebacterium Haloferax volcanii. | Q42609740 | ||
Cloning and sequencing of the gene encoding the cell surface glycoprotein of Haloarcula japonica strain TR-1. | Q42681773 | ||
Drastic differences in glycosylation of related S-layer glycoproteins from moderate and extreme halophiles. | Q43016776 | ||
Acylation of proteins of the archaebacteria Halobacterium cutirubrum and Methanobacterium thermoautotrophicum | Q43022886 | ||
Post-translational modification of the S-layer glycoprotein occurs following translocation across the plasma membrane of the haloarchaeon Haloferax volcanii. | Q43029141 | ||
Archaeal signal peptidases from the genus Thermoplasma: structural and mechanistic hybrids of the bacterial and eukaryal enzymes | Q43888301 | ||
The primary structure of a procaryotic glycoprotein. Cloning and sequencing of the cell surface glycoprotein gene of halobacteria | Q44651832 | ||
Transient methylation of dolichyl oligosaccharides is an obligatory step in halobacterial sulfated glycoprotein biosynthesis | Q45079367 | ||
Membrane topology and biogenesis of eukaryotic signal peptidase. | Q54245064 | ||
Isoprenoid synthesis in Halobacterium halobium. Modulation of 3-hydroxy-3-methylglutaryl coenzyme a concentration in response to mevalonate availability | Q69270861 | ||
Inhibition of glycosylation by amphomycin and sugar nucleotide analogs PP36 and PP55 indicates that Haloferax volcanii beta-glucosylates both glycoproteins and glycolipids through lipid-linked sugar intermediates: evidence for three novel glycoprote | Q72325205 | ||
A novel type of protein modification by isoprenoid-derived materials. Diphytanylglycerylated proteins in Halobacteria | Q72350294 | ||
A highly sensitive periodic acid-silver stain for 1,2-diol groups of glycoproteins and polysaccharides in polyacrylamide gels | Q72664339 | ||
The presence of GPI-linked protein(s) in an archaeobacterium, Sulfolobus acidocaldarius, closely related to eukaryotes | Q73093541 | ||
Isolation and characterization of dolichol-linked oligosaccharides from Haloferax volcanii | Q73861280 | ||
Evidence for covalent attachment of diphytanylglyceryl phosphate to the cell-surface glycoprotein of Halobacterium halobium | Q77863815 | ||
P433 | issue | Pt 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Archaea | Q10872 |
Haloferax volcanii | Q16982678 | ||
P304 | page(s) | 959-964 | |
P577 | publication date | 2002-09-01 | |
P1433 | published in | Biochemical Journal | Q864221 |
P1476 | title | Lipid modification of proteins in Archaea: attachment of a mevalonic acid-based lipid moiety to the surface-layer glycoprotein of Haloferax volcanii follows protein translocation | |
P478 | volume | 366 |
Q47221406 | Archaeal S-Layers: Overview and Current State of the Art. |
Q38287954 | Archaeal S-layer glycoproteins: post-translational modification in the face of extremes |
Q64448582 | Archaeal cell surface biogenesis |
Q35129642 | Archaeal membrane-associated proteases: insights on Haloferax volcanii and other haloarchaea |
Q34228599 | Archaeosortases and exosortases are widely distributed systems linking membrane transit with posttranslational modification |
Q42585203 | Are There Rab GTPases in Archaea? |
Q30932558 | Construction and usage of a onefold-coverage shotgun DNA microarray to characterize the metabolism of the archaeon Haloferax volcanii. |
Q41365920 | Defining the topology of the N-glycosylation pathway in the halophilic archaeon Haloferax volcanii |
Q42263224 | Different routes to the same ending: comparing the N-glycosylation processes of Haloferax volcanii and Haloarcula marismortui, two halophilic archaea from the Dead Sea |
Q36070868 | Diversity and subcellular distribution of archaeal secreted proteins |
Q37606959 | Emerging facets of prokaryotic glycosylation. |
Q91917265 | Environmental factors influence the Haloferax volcanii S-layer protein structure |
Q37029288 | HMG-CoA reductase is regulated by environmental salinity and its activity is essential for halotolerance in halophilic fungi |
Q34343383 | Haloferax volcanii archaeosortase is required for motility, mating, and C-terminal processing of the S-layer glycoprotein. |
Q43018079 | Identification of genes regulated by changing salinity in the deep-sea bacterium Shewanella sp. WP3 using RNA arbitrarily primed PCR. |
Q35787515 | Insights into ABC transport in archaea |
Q42077696 | Lipid modification gives rise to two distinct Haloferax volcanii S-layer glycoprotein populations. |
Q30462689 | Lipids of archaeal viruses. |
Q39000413 | Lovastatin in Aspergillus terreus: fermented rice straw extracts interferes with methane production and gene expression in Methanobrevibacter smithii |
Q39000417 | Lovastatin-enriched rice straw enhances biomass quality and suppresses ruminal methanogenesis. |
Q36359908 | Molecular organization of selected prokaryotic S-layer proteins |
Q27321892 | Permuting the PGF Signature Motif Blocks both Archaeosortase-Dependent C-Terminal Cleavage and Prenyl Lipid Attachment for the Haloferax volcanii S-Layer Glycoprotein |
Q38061206 | Post-translation modification in Archaea: lessons from Haloferax volcanii and other haloarchaea |
Q33940312 | Posttranslational protein modification in Archaea |
Q54597832 | Protein N-glycosylation in Archaea: defining Haloferax volcanii genes involved in S-layer glycoprotein glycosylation. |
Q37725492 | Protein glycosylation in Archaea: sweet and extreme. |
Q37780957 | S-layer glycoproteins and flagellins: reporters of archaeal posttranslational modifications |
Q34401298 | S-layers: principles and applications |
Q36851803 | Targeted analysis and discovery of posttranslational modifications in proteins from methanogenic archaea by top-down MS |
Q35213995 | The archaeal Sec-dependent protein translocation pathway. |
Q34185088 | The archaeal cell envelope |
Q21562676 | The complete genome sequence of Haloferax volcanii DS2, a model archaeon |
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