scholarly article | Q13442814 |
P50 | author | Matthew P. Bronnimann | Q123571690 |
Janice A Chapman | Q123571698 | ||
Samuel K Campos | Q56991195 | ||
Michelle A Ozbun | Q59453176 | ||
P2093 | author name string | Martin J Deymier | |
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A subset of chaperones and folding enzymes form multiprotein complexes in endoplasmic reticulum to bind nascent proteins | Q24541564 | ||
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Human papillomavirus is a necessary cause of invasive cervical cancer worldwide | Q29617514 | ||
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Papillomaviruses infect cells via a clathrin-dependent pathway | Q34187267 | ||
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Biosynthesis of human papillomavirus from a continuous cell line upon epithelial differentiation | Q34236875 | ||
ERp29 triggers a conformational change in polyomavirus to stimulate membrane binding | Q34462488 | ||
Mechanism of action of bacitracin: complexation with metal ion and C 55 -isoprenyl pyrophosphate | Q34698463 | ||
Metal binding and structure-activity relationship of the metalloantibiotic peptide bacitracin | Q34744785 | ||
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Downregulation of protein disulfide isomerase inhibits infection by the mouse polyomavirus | Q35139173 | ||
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From road rash to top allergen in a flash: bacitracin | Q35728904 | ||
Protein disulfide isomerases contribute differentially to the endoplasmic reticulum-associated degradation of apolipoprotein B and other substrates | Q35756661 | ||
Neutralization of human papillomavirus with monoclonal antibodies reveals different mechanisms of inhibition | Q35947703 | ||
Human papillomavirus type 31 uses a caveolin 1- and dynamin 2-mediated entry pathway for infection of human keratinocytes | Q36098845 | ||
Inhibition of transfer to secondary receptors by heparan sulfate-binding drug or antibody induces noninfectious uptake of human papillomavirus | Q36099326 | ||
Inhibition of a reductive function of the plasma membrane by bacitracin and antibodies against protein disulfide-isomerase | Q36281651 | ||
Thiol-reactive reagents inhibits intracellular trafficking of human papillomavirus type 16 pseudovirions by binding to cysteine residues of major capsid protein L1. | Q36285957 | ||
A protective and broadly cross-neutralizing epitope of human papillomavirus L2. | Q36315086 | ||
A chemical method for fast and sensitive detection of DNA synthesis in vivo | Q36497275 | ||
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Arrangement of L2 within the papillomavirus capsid | Q36673336 | ||
Caveolin-1-dependent infectious entry of human papillomavirus type 31 in human keratinocytes proceeds to the endosomal pathway for pH-dependent uncoating | Q36898793 | ||
Role of heparan sulfate in attachment to and infection of the murine female genital tract by human papillomavirus | Q37099713 | ||
Structure, attachment and entry of polyoma- and papillomaviruses | Q37373696 | ||
Role of L2 cysteines in papillomavirus infection and neutralization | Q37410946 | ||
The initial steps leading to papillomavirus infection occur on the basement membrane prior to cell surface binding | Q37453403 | ||
Viral entry mechanisms: human papillomavirus and a long journey from extracellular matrix to the nucleus | Q37480444 | ||
Come in and take your coat off - how host cells provide endocytosis for virus entry | Q37777194 | ||
Regulation of matrix metalloproteinase activity in health and disease | Q37810644 | ||
Thiol isomerases negatively regulate the cellular shedding activity of ADAM17. | Q39722344 | ||
Functions of ERp57 in the folding and assembly of major histocompatibility complex class I molecules | Q40299278 | ||
Multi-chaperone complexes regulate the folding of interferon-gamma in the endoplasmic reticulum. | Q40482547 | ||
Nuclear translocation of papillomavirus minor capsid protein L2 requires Hsc70. | Q40556496 | ||
Surface conformational and linear epitopes on HPV-16 and HPV-18 L1 virus-like particles as defined by monoclonal antibodies | Q41172103 | ||
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A PDI family network acts distinctly and coordinately with ERp29 to facilitate polyomavirus infection | Q42707006 | ||
Global conformational rearrangements in integrin extracellular domains in outside-in and inside-out signaling | Q44136286 | ||
An insulin-degrading enzyme inhibitor decreases amylin degradation, increases amylin-induced cytotoxicity, and increases amyloid formation in insulinoma cell cultures | Q44564031 | ||
Heparan sulfate proteoglycans interact exclusively with conformationally intact HPV L1 assemblies: basis for a virus-like particle ELISA. | Q45551271 | ||
Analysis of type-restricted and cross-reactive epitopes on virus-like particles of human papillomavirus type 33 and in infected tissues using monoclonal antibodies to the major capsid protein | Q45781792 | ||
Redox Control of Exofacial Protein Thiols/Disulfides by Protein Disulfide Isomerase | Q61718588 | ||
Antagonists of bacitracin | Q72274089 | ||
Enzyme destruction by a protease contaminant in bacitracin | Q73983865 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 8 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 4169-4181 | |
P577 | publication date | 2012-02-15 | |
P1433 | published in | Journal of Virology | Q1251128 |
P1476 | title | Opposing effects of bacitracin on human papillomavirus type 16 infection: enhancement of binding and entry and inhibition of endosomal penetration | |
P478 | volume | 86 |
Q28087358 | A bacterial toxin and a nonenveloped virus hijack ER-to-cytosol membrane translocation pathways to cause disease |
Q39253672 | A transmembrane domain and GxxxG motifs within L2 are essential for papillomavirus infection |
Q59354292 | Cell-Penetrating Peptide Mediates Intracellular Membrane Passage of Human Papillomavirus L2 Protein to Trigger Retrograde Trafficking |
Q38233232 | Coat as a dagger: the use of capsid proteins to perforate membranes during non-enveloped DNA viruses trafficking. |
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Q36246390 | Cyclophilins facilitate dissociation of the human papillomavirus type 16 capsid protein L1 from the L2/DNA complex following virus entry |
Q38366470 | DNA virus uncoating. |
Q64887908 | Diverse Papillomavirus Types Induce Endosomal Tubulation. |
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Q36819964 | Genome-wide siRNA screen identifies the retromer as a cellular entry factor for human papillomavirus. |
Q39320596 | HPV entry into cells |
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Q36376623 | Interaction of human papillomavirus type 16 particles with heparan sulfate and syndecan-1 molecules in the keratinocyte extracellular matrix plays an active role in infection |
Q35758680 | Kallikrein-8 Proteolytically Processes Human Papillomaviruses in the Extracellular Space To Facilitate Entry into Host Cells |
Q59359263 | Molecular chaperones: from proteostasis to pathogenesis |
Q37252724 | Multiple heparan sulfate binding site engagements are required for the infectious entry of human papillomavirus type 16. |
Q37610842 | Opportunistic intruders: how viruses orchestrate ER functions to infect cells. |
Q26801497 | Papillomavirus Infectious Pathways: A Comparison of Systems |
Q38045782 | Principles of polyoma- and papillomavirus uncoating |
Q38911523 | Protein disulfide isomerase mediates dengue virus entry in association with lipid rafts. |
Q37198519 | The papillomavirus major capsid protein L1. |
Q33626389 | Translocation of the papillomavirus L2/vDNA complex across the limiting membrane requires the onset of mitosis |
Q34229884 | Vesicular trafficking of incoming human papillomavirus 16 to the Golgi apparatus and endoplasmic reticulum requires γ-secretase activity |
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