All Stories

  1. Comprehensive glycoproteomics shines new light on the complexity and extent of glycosylation in archaea
  2. ArtA-Dependent Processing of a Tat Substrate Containing a Conserved Tripartite Structure That Is Not Localized at the C Terminus
  3. Screening of a Haloferax volcanii Transposon Library Reveals Novel Motility and Adhesion Mutants
  4. Emerging facets of prokaryotic glycosylation
  5. Editorial: Archaeal Cell Envelope and Surface Structures
  6. Permuting the PGF Signature Motif Blocks both Archaeosortase-Dependent C-Terminal Cleavage and Prenyl Lipid Attachment for the Haloferax volcanii S-Layer Glycoprotein
  7. Archaeal type IV pili and their involvement in biofilm formation
  8. A conserved type IV pilin signal peptide H-domain is critical for the post-translational regulation of flagella-dependent motility
  9. Protein Translocation into and across Archaeal Cytoplasmic Membranes
  10. Generation of comprehensive transposon insertion mutant library for the model archaeon, Haloferax volcanii , and its use for gene discovery
  11. Haloferax volcanii cells lacking the flagellin FlgA2 are hypermotile
  12. Novel Archaeal Adhesion Pilins with a Conserved N Terminus
  13. Haloferax volcaniiarchaeosortase is required for motility, mating, and C-terminal processing of the S-layer glycoprotein
  14. N-Glycosylation of Haloferax volcanii Flagellins Requires Known Agl Proteins and Is Essential for Biosynthesis of Stable Flagella
  15. Diversity and Subcellular Distribution of Archaeal Secreted Proteins
  16. Identification of Surprisingly Diverse Type IV Pili, across a Broad Range of Gram-Positive Bacteria
  17. Archaeal type IV pilus-like structures—evolutionarily conserved prokaryotic surface organelles
  18. Protein Transport Into and Across Haloarchaeal Cytoplasmic Membranes
  19. Protein Transport Into and Across Haloarchaeal Cytoplasmic Membranes
  20. Haloferax volcanii Flagella Are Required for Motility but Are Not Involved in PibD-Dependent Surface Adhesion
  21. The Complete Genome Sequence of Haloferax volcanii DS2, a Model Archaeon
  22. Mutational and Bioinformatic Analysis of Haloarchaeal Lipobox-Containing Proteins
  23. Diversity of archaeal type IV pilin-like structures
  24. Haloarchaeal Protein Translocation via the Twin Arginine Translocation Pathway
  25. Haloferax volcanii twin-arginine translocation substates include secreted soluble, C-terminally anchored and lipoproteins
  26. The twin-arginine translocation pathway is a major route of protein export in Streptomyces coelicolor
  27. Identification of Diverse Archaeal Proteins with Class III Signal Peptides Cleaved by Distinct Archaeal Prepilin Peptidases
  28. Isolation and characterization of halophilic archaea able to grow in aromatic compounds
  29. Archaeal and Bacterial SecD and SecF Homologs Exhibit Striking Structural and Functional Conservation
  30. Genetic and Biochemical Analysis of the Twin-Arginine Translocation Pathway in Halophilic Archaea
  31. Protein transport in Archaea: Sec and twin arginine translocation pathways
  32. DIVERSITY AND EVOLUTION OF PROTEIN TRANSLOCATION
  33. The Haloferax volcanii FtsY Homolog Is Critical for Haloarchaeal Growth but Does Not Require the A Domain
  34. Translocation of proteins across archaeal cytoplasmic membranes
  35. Prokaryotic Utilization of the Twin-Arginine Translocation Pathway: a Genomic Survey
  36. In Vivo Analysis of an Essential Archaeal Signal Recognition Particle in Its Native Host
  37. Where Are the Limits of Life?
  38. Protein Translocation in the Three Domains of Life: Variations on a Theme
  39. In Vivo Analyses of Interactions between SecE and SecY, Core Components of the Escherichia coli Protein Translocation Machinery
  40. Ultrastructural diversity of the cellulase complexes of Clostridium papyrosolvens C7.
  41. Essential Features of the Pathway for Protein Translocation across the Escherichia coli Cytoplasmic Membrane
  42. Multicomplex cellulase-xylanase system of Clostridium papyrosolvens C7.