Target-specific mechanics of phagocytosis: protrusive neutrophil response to zymosan differs from the uptake of antibody-tagged pathogens.
about
Controlled One-on-One Encounters between Immune Cells and Microbes Reveal Mechanisms of PhagocytosisBlurred line between chemotactic chase and phagocytic consumption: an immunophysical single-cell perspective.Coccidioides Endospores and Spherules Draw Strong Chemotactic, Adhesive, and Phagocytic Responses by Individual Human NeutrophilsProtrusive push versus enveloping embrace: computational model of phagocytosis predicts key regulatory role of cytoskeletal membrane anchorsRegulation of phagocytosis by Rho GTPasesDifferential effects of serum heat treatment on chemotaxis and phagocytosis by human neutrophils.Macrophages phagocytose nonopsonized silica particles using a unique microtubule-dependent pathway.Assessment of the neutrophilic antibody-dependent respiratory burst (ADRB) response to Plasmodium falciparumCytotoxic T Cells Use Mechanical Force to Potentiate Target Cell KillingA method for time-resolved measurements of the mechanics of phagocytic cupsPhagocytosis dynamics depends on target shape.Changing world of neutrophils.Erythrocyte and leukocyte: two partners in bacteria killing.The life cycle of phagosomes: formation, maturation, and resolution.Membrane tension maintains cell polarity by confining signals to the leading edge during neutrophil migration.Analysis of the dynamic energy flow associated with phagocytosis of bacteria.The influence of dietary zinc source and coccidial vaccine exposure on intracellular zinc homeostasis and immune status in broiler chickens.The mechanism of phagocytosis: two stages of engulfmentGuidelines for the use of flow cytometry and cell sorting in immunological studies.Multiple roles of filopodial dynamics in particle capture and phagocytosis and phenotypes of Cdc42 and Myo10 deletion.Mechanistic Understanding of Single-Cell Behavior is Essential for Transformative Advances in Biomedicine
P2860
Q26798385-A6FBA617-FBFB-4FBA-B392-5632E96A071FQ26827182-B04039CA-6078-480C-957B-53D263CDF7E5Q27304683-81EFBBA0-E698-4C21-B754-4AEFFF3951A8Q27334102-64162011-128B-4252-B56B-7D3F9750186EQ28081285-18629D39-B192-40B5-900A-258F9168F292Q30458909-9DBB87F5-B07E-416A-A883-82C8F0B8C75FQ30619252-5E4992E4-8B8D-4E72-94F4-6EC8C2B0A76AQ34484078-B23A02E0-4122-4C44-A734-A2E9465915C2Q36730697-7DBF2AB6-301A-4A54-B628-75B92B329B2BQ36767910-F6FCCDBD-33E6-4CA9-90E0-6D37ADFE21F5Q37145658-EE494340-9C80-42B8-8F25-CA001CE260EAQ38103480-6CA0FDDA-0A37-41D8-8D45-275BB00AF9EDQ38254601-CCABFBE8-7360-4293-BF28-368E65AF15B1Q38936522-147B6932-E9B2-464D-9314-A9750581C363Q39408781-06CF3246-EB97-4082-971A-28FE9DF9D8F1Q39577677-1A71D871-AA6F-4C11-B77B-4C34007FB42BQ41158227-9B1A2F0B-CCEF-4096-B92E-E9A8E0370FF9Q41840502-99684989-B11A-40D8-A359-22A1FD9267F4Q41918189-8F91DBF3-EA14-4CCC-9957-73ACDB1ADF13Q48623666-700FE8E5-0E0C-49F7-BBB6-52E5BB297712Q57153526-A657C9BE-1863-4B3F-B2D3-7135E8CA9D8F
P2860
Target-specific mechanics of phagocytosis: protrusive neutrophil response to zymosan differs from the uptake of antibody-tagged pathogens.
description
2011 nî lūn-bûn
@nan
2011 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի մարտին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Target-specific mechanics of p ...... of antibody-tagged pathogens.
@ast
Target-specific mechanics of p ...... of antibody-tagged pathogens.
@en
type
label
Target-specific mechanics of p ...... of antibody-tagged pathogens.
@ast
Target-specific mechanics of p ...... of antibody-tagged pathogens.
@en
prefLabel
Target-specific mechanics of p ...... of antibody-tagged pathogens.
@ast
Target-specific mechanics of p ...... of antibody-tagged pathogens.
@en
P2093
P2860
P356
P1476
Target-specific mechanics of p ...... of antibody-tagged pathogens.
@en
P2093
Cheng-Yuk Lee
Marc Herant
Volkmar Heinrich
P2860
P304
P356
10.1242/JCS.078592
P407
P577
2011-03-08T00:00:00Z