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Articles published in
Infect Immun
    March 2024
  1. HYBISKE K, Paktinat S, Newman K, Patton D, et al
    Antibodies from chlamydia-infected individuals facilitate phagocytosis via Fc receptors.
    Infect Immun. 2024 Mar 7:e0050323. doi: 10.1128/iai.00503.
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    February 2024
  2. WURIHAN W, Wang Y, Yeung S, Zou Y, et al
    Expression activation of over 70% of Chlamydia trachomatis genes during the first hour of infection.
    Infect Immun. 2024 Feb 1:e0053923. doi: 10.1128/iai.00539.
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    January 2024
  3. XU Y, Wang Y, Winner H, Yang H, et al
    Regulation of chlamydial spreading from the small intestine to the large intestine by IL-22-producing CD4(+) T cells.
    Infect Immun. 2024;92:e0042123.
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  4. ROCKEY DD, Wang X, Debrine A, Grieshaber N, et al
    Metabolic dormancy in Chlamydia trachomatis treated with different antibiotics.
    Infect Immun. 2024 Jan 12:e0033923. doi: 10.1128/iai.00339.
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    November 2023
  5. BALL LM, Bronstein E, Liechti GW, Maurelli AT, et al
    Neisseria gonorrhoeae drives Chlamydia trachomatis into a persistence-like state during in vitro co-infection.
    Infect Immun. 2023 Nov 28:e0017923. doi: 10.1128/iai.00179.
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  6. GRAY MC, Thomas KS, Lamb ER, Werner LM, et al
    Evaluating vaccine-elicited antibody activities against Neisseria gonorrhoeae: cross-protective responses elicited by the 4CMenB meningococcal vaccine.
    Infect Immun. 2023 Nov 22:e0030923. doi: 10.1128/iai.00309.
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  7. LU C, Wang J, Zhong G
    Preclinical screen for protection efficacy of chlamydial antigens that are immunogenic in humans.
    Infect Immun. 2023;91:e0034923.
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    October 2023
  8. HE Y, Wang Y, He R, Abdelsalam AM, et al
    IL-23 receptor signaling licenses group 3-like innate lymphoid cells to restrict a live-attenuated oral Chlamydia vaccine in the gut.
    Infect Immun. 2023 Oct 18:e0037123. doi: 10.1128/iai.00371.
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    June 2023
  9. MCCASLIN PN, Andersen SE, Icardi CM, Faris R, et al
    Identification and Preliminary Characterization of Novel Type III Secreted Effector Proteins in Chlamydia trachomatis.
    Infect Immun. 2023 Jun 22:e0049122. doi: 10.1128/iai.00491.
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    May 2023
  10. DEBOER AG, Lei L, Yang C, Martens CA, et al
    TargeTron Inactivation of Chlamydia trachomatis gseA Results in a Lipopolysaccharide 3-Deoxy-d-Manno-Oct-2-Ulosonic Acid-Deficient Strain That Is Cytotoxic for Cells.
    Infect Immun. 2023 May 31:e0009623. doi: 10.1128/iai.00096.
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  11. HE R, Torres CA, Wang Y, He C, et al
    Type-I Interferon Signaling Protects against Chlamydia trachomatis Infection in the Female Lower Genital Tract.
    Infect Immun. 2023 May 16:e0015323. doi: 10.1128/iai.00153.
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    April 2023
  12. TZENG YL, Sannigrahi S, Berman Z, Bourne E, et al
    Acquisition of Gonococcal AniA-NorB Pathway by the Neisseria meningitidis Urethritis Clade Confers Denitrifying and Microaerobic Respiration Advantages for Urogenital Adaptation.
    Infect Immun. 2023 Apr 24:e0007923. doi: 10.1128/iai.00079.
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  13. WANG Y, He R, Winner H, Gauduin MC, et al
    Induction of Transmucosal Protection by Oral Vaccination with an Attenuated Chlamydia.
    Infect Immun. 2023 Apr 10:e0004323. doi: 10.1128/iai.00043.
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    March 2023
  14. LUIS MP, Pereira IS, Bugalhao JN, Simoes CN, et al
    The Chlamydia trachomatis IncM Protein Interferes with Host Cell Cytokinesis, Centrosome Positioning, and Golgi Distribution and Contributes to the Stability of the Pathogen-Containing Vacuole.
    Infect Immun. 2023 Mar 6:e0040522. doi: 10.1128/iai.00405.
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    February 2023
  15. TURMAN BJ, Alzhanov D, Nagarajan UM, Darville T, et al
    Virulence Protein Pgp3 Is Insufficient To Mediate Plasmid-Dependent Infectivity of Chlamydia trachomatis.
    Infect Immun. 2023 Feb 1:e0039222. doi: 10.1128/iai.00392.
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    January 2023
  16. STEIERT B, Faris R, Weber MM
    In Search of a Mechanistic Link between Chlamydia trachomatis-Induced Cellular Pathophysiology and Oncogenesis.
    Infect Immun. 2023 Jan 25:e0044322. doi: 10.1128/iai.00443.
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  17. RIFFAUD CM, Rucks EA, Ouellette SP
    Tryptophan Availability during Persistence of Chlamydia trachomatis Directly Impacts Expression of Chlamydial Cell Division Proteins.
    Infect Immun. 2023 Jan 16:e0051322. doi: 10.1128/iai.00513.
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    November 2022
  18. GREENAWALT AN, Stoudenmire J, Lundquist K, Noinaj N, et al
    Point Mutations in TbpA Abrogate Human Transferrin Binding in Neisseria gonorrhoeae.
    Infect Immun. 2022;90:e0041422.
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  19. GANN JI, Malaviarachchi PA, Du W, Mercado MAB, et al
    IFNgamma and Antibody Synergize To Enhance Protective Immunity against Chlamydia Dissemination and Female Reproductive Tract Reinfections.
    Infect Immun. 2022 Nov 14:e0032822. doi: 10.1128/iai.00328.
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  20. FIELDS KA, Bodero MD, Scanlon KR, Jewett TJ, et al
    A Minimal Replicon Enables Efficacious, Species-Specific Gene Deletion in Chlamydia and Extension of Gene Knockout Studies to the Animal Model of Infection Using Chlamydia muridarum.
    Infect Immun. 2022 Nov 9:e0045322. doi: 10.1128/iai.00453.
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    October 2022
  21. SUCHLAND RJ, Carrell SJ, Ramsey SA, Hybiske K, et al
    Genomic Analysis of MSM Rectal Chlamydia trachomatis Isolates Identifies Predicted Tissue-Tropic Lineages Generated by Intraspecies Lateral Gene Transfer-Mediated Evolution.
    Infect Immun. 2022 Oct 10:e0026522. doi: 10.1128/iai.00265.
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    May 2022
  22. BISHOP RC, Derre I
    The Chlamydia trachomatis Inclusion Membrane Protein CTL0390 Mediates Host Cell Exit via Lysis through STING Activation.
    Infect Immun. 2022 May 19:e0019022. doi: 10.1128/iai.00190.
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    April 2022
  23. ZHAO Y, Huo Z, Zhou Z, Cervantes C, et al
    Interleukin-27 (IL-27) Promotes Chlamydial Infection in the Female Genital Tract.
    Infect Immun. 2022;90:e0065121.
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    January 2022
  24. ZHOU Z, Tian Q, Wang L, Zhong G, et al
    Chlamydia deficient in plasmid-encoded glycoprotein 3 (pGP3) as an attenuated live oral vaccine.
    Infect Immun. 2022 Jan 31:IAI0047221. doi: 10.1128/IAI.00472.
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  25. GARVIN LE, DeBoer AG, Carrell SJ, Wang X, et al
    Microscopic analysis of the Chlamydia abortus inclusion and its interaction with those formed by other chlamydial species.
    Infect Immun. 2022 Jan 31:IAI0049921. doi: 10.1128/IAI.00499.
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  26. SU X, Xu H, French M, Zhao Y, et al
    Evidence for cGAS-STING signaling in the female genital tract resistance to Chlamydia trachomatis infection.
    Infect Immun. 2022 Jan 3:iai0067021. doi: 10.1128/iai.00670.
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    November 2021
  27. CALLAGHAN MM, Klimowicz AK, Shockey AC, Kane J, et al
    Transcriptional and Translational Responsiveness of the Neisseria gonorrhoeae Type IV Secretion System to Conditions of Host Infections.
    Infect Immun. 2021;89:e0051921.
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  28. ZHOU Z, Tian Q, Wang L, Sun X, et al
    Characterization of pathogenic CD8(+) T cells in Chlamydia-infected OT1 mice.
    Infect Immun. 2021 Nov 1:IAI0045321. doi: 10.1128/IAI.00453.
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    October 2021
  29. BARTH S, Kirschnek S, Ortmann N, Tanriver Y, et al
    The Reaction of Innate Lymphoid Cells in the Mouse Female Genital Tract to Chlamydial Infection.
    Infect Immun. 2021;89:e0080020.
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    July 2021
  30. ZHOU Z, Tian Q, Wang L, Xue M, et al
    Chlamydia spreads to the large intestine lumen via multiple pathways.
    Infect Immun. 2021 Jul 19:IAI0025421. doi: 10.1128/IAI.00254.
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  31. TIAN Q, Zhou Z, Wang L, Sun X, et al
    Gastrointestinal Chlamydia-induced CD8(+) T cells promote chlamydial pathogenicity in the female upper genital tract.
    Infect Immun. 2021 Jul 6:IAI0020521. doi: 10.1128/IAI.00205.
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    June 2021
  32. MCQUEEN BE, Kollipara A, Gyorke CE, Andrews CW Jr, et al
    Reduced uterine tissue damage during Chlamydia muridarum infection in TREM-1,3 deficient mice.
    Infect Immun. 2021 Jun 14:IAI0007221. doi: 10.1128/IAI.00072.
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    May 2021
  33. BROCKETT MR, Liechti GW
    Persistence alters the interaction between Chlamydia trachomatis and its host cell.
    Infect Immun. 2021 May 17. pii: IAI.00685-20. doi: 10.1128/IAI.00685.
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  34. BROCKETT MR, Lee J, Cox JV, Liechti GW, et al
    A Dynamic, Ring-Forming Bactofilin Critical for Maintaining Cell Size in the Obligate Intracellular Bacterium Chlamydia trachomatis.
    Infect Immun. 2021 May 3. pii: IAI.00203-21. doi: 10.1128/IAI.00203.
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    April 2021
  35. OUELLETTE SP, Blay EA, Hatch ND, Fisher-Marvin LA, et al
    CRISPR Interference to Inducibly Repress Gene Expression in Chlamydia trachomatis.
    Infect Immun. 2021 Apr 19. pii: IAI.00108-21. doi: 10.1128/IAI.00108.
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  36. OLSON-WOOD MG, Jorgenson LM, Ouellette SP, Rucks EA, et al
    Inclusion membrane growth and composition is altered by overexpression of specific Incs in Chlamydia trachomatis L2.
    Infect Immun. 2021 Apr 19. pii: IAI.00094-21. doi: 10.1128/IAI.00094.
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  37. MUNOZ KJ, Wang K, Sheehan LM, Tan M, et al
    The small molecule H89 inhibits Chlamydia inclusion growth and production of infectious progeny.
    Infect Immun. 2021 Apr 5. pii: IAI.00729-20. doi: 10.1128/IAI.00729.
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    February 2021
  38. BELAY T, Sahu R, Martin E, Brown K, et al
    Active hexose correlated compound restores the gene expression and protein secretion of protective cytokines of immune cells in a murine stress model during Chlamydia muridarum genital infection.
    Infect Immun. 2021 Feb 8. pii: IAI.00786-20. doi: 10.1128/IAI.00786.
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    January 2021
  39. BUI DC, Jorgenson LM, Ouellette SP, Rucks EA, et al
    Eukaryotic SNARE VAMP3 Dynamically Interacts with Multiple Chlamydial Inclusion Membrane Proteins.
    Infect Immun. 2021;89.
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    November 2020
  40. MERCADO MAB, Du W, Malaviarachchi PA, Gann JI, et al
    Innate IFNgamma is essential for systemic Chlamydia muridarum control in mice while CD4 T cell-dependent IFNgamma production is highly redundant in the female reproductive tract.
    Infect Immun. 2020 Nov 30. pii: IAI.00541-20. doi: 10.1128/IAI.00541.
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  41. SHILLOVA N, Howe SE, Hyseni B, Ridgell D, et al
    Chlamydia-specific IgA secretion in the female reproductive tract induced via per-oral immunization confers protection against primary Chlamydia challenge.
    Infect Immun. 2020 Nov 2. pii: IAI.00413-20. doi: 10.1128/IAI.00413.
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  42. HE Y, Xu H, Song C, Koprivsek JJ, et al
    Adoptive transfer of group 3-like innate lymphoid cells restores mouse colon resistance to colonization of an IFNgamma-susceptible Chlamydia muridarum mutant.
    Infect Immun. 2020 Nov 2. pii: IAI.00533-20. doi: 10.1128/IAI.00533.
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    October 2020
  43. SINGH R, Slade JA, Brockett M, Mendez D, et al
    Competing substrates for the bifunctional diaminopimelic acid epimerase/glutamate racemase modulate peptidoglycan synthesis in Chlamydia trachomatis.
    Infect Immun. 2020 Oct 26. pii: IAI.00401-20. doi: 10.1128/IAI.00401.
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  44. GRILLOVA L, Musilova J, Janeckova K, Pospisilova P, et al
    The Arg753Gln polymorphism of Toll-like receptor 2 has a lower occurrence in patients with syphilis suggesting its protective effect in Czech and Slovak individuals.
    Infect Immun. 2020 Oct 19. pii: IAI.00503-20. doi: 10.1128/IAI.00503.
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    September 2020
  45. XIE L, He C, Chen J, Tang L, et al
    Suppression of Chlamydial Pathogenicity by Nonspecific CD8(+) T Lymphocytes.
    Infect Immun. 2020;88.
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    August 2020
  46. ZHOU Z, Xie L, Wang L, Xue M, et al
    Effects of immunomodulatory drug Fingolimod (FTY720) on Chlamydia dissemination and pathogenesis.
    Infect Immun. 2020 Aug 31. pii: IAI.00281-20. doi: 10.1128/IAI.00281.
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    May 2020
  47. WANG X, Rockey DD, Dolan BP
    Chlamydia lipooligosaccharide has varied direct and indirect roles in evading both innate and adaptive host-immune responses.
    Infect Immun. 2020 May 18. pii: IAI.00198-20. doi: 10.1128/IAI.00198.
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    March 2020
  48. HUO Z, He C, Xu Y, Jia T, et al
    Chlamydia-deficient in plasmid-encoded pGP3 is prevented from spreading to large intestine.
    Infect Immun. 2020 Mar 23. pii: IAI.00120-20. doi: 10.1128/IAI.00120.
    >> Share


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