chlamydia spp (Prantner GmbH)
Structured Review

Chlamydia Spp, supplied by Prantner GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/chlamydia+spp/pmc07794043-490-8-27?v=Prantner+GmbH
Average 90 stars, based on 1 article reviews
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1) Product Images from "Host cell death during infection with Chlamydia : a double-edged sword"
Article Title: Host cell death during infection with Chlamydia : a double-edged sword
Journal: FEMS Microbiology Reviews
doi: 10.1093/femsre/fuaa043
Figure Legend Snippet: The chlamydial developmental cycle. Schematic representation of the different stages of the Chlamydia developmental cycle. Bacteria are indicated as yellow spheres. Small and large spheres represent EBs and RBs, respectively.
Techniques Used: Bacteria
Figure Legend Snippet: Alternative fates of Chlamydia -infected cells. The encounter with Chlamydia does not always lead to the death of the infected cell. (A) Under certain conditions, in particular after invasion of a professional phagocyte, Chlamydia infection can be cleared by the host cell, for instance by phagolysosomal destruction of the pathogen. (B) Under unfavorable growth conditions, Chlamydia ’s progress through the developmental cycle is blocked and the bacteria can persist inside the viable host cell for prolonged periods of time without inducing host cell death. Under favorable growth conditions in permissive host cells, Chlamydia can complete its developmental cycle and form infectious EBs that are released from host cells through either induction of host cell death (C) or extrusion (D) . During extrusion, host cells remain viable. Complete extrusion can lead to the formation of inclusion-free cells. (E) In some instances, host cell mitosis can give rise to one infected and one inclusion-free daughter cell, while in other instances two infected daughter cells can arise.
Techniques Used: Infection, Bacteria
Figure Legend Snippet: Anti-apoptotic activities of C. trachomatis . The illustration gives an overview of the main anti-apoptotic activities described for C. trachomatis . Chlamydia factors and Chlamydia -mediated activities are indicated in yellow. Upward facing arrows next to factors or pathways indicate upregulation or activation; downward facing arrows indicate downregulation. Note that the anti-apoptotic activities of Chlamydia spp. were shown to be species specific. For instance, NFκB activation was reported to play a role in apoptosis inhibition during infection with C. pneumoniae , but not during infection with C. trachomatis . It is therefore not shown.
Techniques Used: Activation Assay, Inhibition, Infection
Figure Legend Snippet: Host cell death as consequence of inclusion instability. (A) Host cell lysis at late stages of infection with C. trachomatis is preceded by inclusion rupture. (B) Conditions that cause premature inclusion rupture, such as laser-mediated disruption of inclusions and potentially lack of certain Inc proteins, result in premature host cell death. The molecular machineries that execute cell death in these distinct situations are not well understood. Yet, it is conceivable that Chlamydia co-opts pre-existing host cellular defense responses to mediate its exit from its host cell.
Techniques Used: Lysis, Infection, Disruption

