Google Scholar
NCBI
2023
2020
NCBI
2023
- Fisher, D.J. and Beard, P.A. (2023) Recent advances in genetic systems in obligate intracellular human-pathogenic bacteria. Frontiers in Cellular and Infection Microbiology. PMID: 37404720. Link
- Swoboda, A.R., Wood, N.A., Saery, E.A., Fisher, D.J., and Ouellette, S.P. (2023) The Periplasmic Tail-Specific Protease, Tsp, Is Essential for Secondary Differentiation in Chlamydia trachomatis. Journal of Bacteriology. PMID: 37092988. Link Editor's Pick
- #Pan, S., #Jensen, A.A, Wood, N.A., Henrichfreise, B., Brötz-Oesterhelt, H., Fisher, D.J., Sass, P., and Ouellette, S.P. (2023) Molecular Characterization of the ClpC AAA+ ATPase in the Biology of Chlamydia trachomatis. mBio. PMID: 36975997. Link
- De Campos, L.J., Seleem, M.A., Feng, J., Pires de Oliveira, K.M., de Andrade dos Santos, J.V., Hayer, S., Clayton, J.B., Kathi, S., Fisher, D.J., Ouellette, S.P., and Conda-Sheridan, M. (2023) Design, Biological Evaluation, and Computer-Aided Analysis of Dihydrothiazepines as Selective Antichlamydial Agents. Journal of Medicinal Chemistry. PMID: 36696579. Link
- Azadmanesh, J., Seleem, M.A., Struble, L., Wood, N.A., Fisher, D.J., Lovelace, J.J., Artigues, A., Fenton, A., Borgstahl, G.E.O., Ouellette, S.P., and Conda-Sheridan, M. (2022) The structure of caseinolytic protease subunit ClpP2 reveals a functional model of the caseinolytic protease system from Chlamydia trachomatis. Journal of Biological Chemistry. PMID: 36463962. Link
- Kuwabara, S. Landers, E. R., and Fisher, D.J. (2022) Impact of Nutrients on the Function of the Chlamydial Rsb Partner Switching Mechanism. Pathogens and Disease, 80(1). PMID: 36385643. Link
- Wood, N.A., Swoboda, A.R., Blocker, A.M., Fisher, D.J., and Ouellette, S.P. (2022) Tag-dependent substrate selection of ClpX underlies secondary differentiation of Chlamydia trachomatis. mBio,13(5). PMID: 36154190. Link
- Pahariya, P., Fisher, D.J., and Choudhary, R. (2021) Comparative Analyses of Sanitizing Solutions on Microbial Reduction and Quality of Leafy Greens. LWT – Food Science and Technology, 154. Link
- Joshi, P., Becerra-Mora, N., Vargas-Lizarazo, A.Y., Kohli, P., Fisher, D.J., and Choudhary, R. (2021) Use of edible alginate and limonene-liposome coatings for shelf-life improvement of blackberries. Future Foods. Accepted, 4. Link
- Shillova, N., Howe, S.E., Hyseni, B., Ridgell, D., Fisher, D.J., and Konjufca, V. (2021) Chlamydia-specific IgA secretion in the female reproductive tract induced via per-oral immunization confers protection against primary Chlamydia challenge. Infection and Immunity. PMID: 33139380 Link
2020
- Wood, N.A., Blocker, A.M., Seleem, M.A., Conda-Sheridan, M., Fisher, D.J., and Ouellette, S.P. (2020) The ClpX and ClpP2 Orthologs of Chlamydia trachomatis Perform Discrete and Essential Functions in Organism Growth and Development. MBio, 11(5). PMID: 32873765 Link
- Seleem, M.A., Rodrigues de Almeida, N., Chhonker, Y.S., Murry, D.J., Guterres, Z.R., Blocker, A.M., Kuwabara, S., Fisher, D.J., Leal, E.S., Martinefski, M.R., Bollini, M., Monge, M.E., Ouellette, S.P., and Conda-Sheridan, M. (2020) Synthesis and Antichlamydial Activity of Molecules Based on Dysregulators of Cylindrical Proteases. Journal of Medicinal Chemistry, 63(8). PMID: 32227948 Link
- O'Neill, C.E., Clarke, I.N., and Fisher, D.J. (2020) Chlamydia genetics. M. Tan, J.H. Hegemann and C. Sütterlin (ed.), Chlamydia Biology: From Genome to Disease. Caister Academic Press. Link
- Witrick, K.A., Das, K., Choudhary, R., Fisher, D.J., and Chai, T. (2019) Physiochemical and Sensory Characteristics of Made-In-Transit Yogurt. International Journal of Food Science and Nutrition Engineering, 9(2), 37-44. DOI: 10.5923/j.food.20190902.02 Link
- Pais, S.V., Key, C.E., Borges, V., Pereira, I.S., Gomes, J.P., Fisher, D.J., and Mota, L.J. (2019) CteG is a Chlamydia trachomatis effector protein that associates with the Golgi complex of infected host cells. Scientific Reports. PMID: 30992493 Link
- Shaw, J.H., Key, C.E., Snider, T.A., Shaw, E., Fisher, D.J., and Lutter, E.I. (2018) Genetic inactivation of Chlamydia trachomatis inclusion membrane protein CT228 alters MYPT1 recruitment, extrusion production and longevity of infection. Frontiers in Cellular and Infection Microbiology. PMID:
30555802 Link - Wood, N.A., Chung, K.Y., Blocker, A.M., Rodrigues de Almeida, N., Conda-Sheridan, M., Fisher, D.J., and Ouellette, S.P. (2018) Initial Characterization of the Two ClpP Paralogs of Chlamydia trachomatis Suggests Unique Functionality for Each. Journal of Bacteriology. PMID: 30396899 Link
- Claywell, J.E., Matschke, L.M., Plunkett, K.N., and Fisher, D.J. (2018) Inhibition of the Protein Phosphatase CppA Alters Development of Chlamydia trachomatis. Journal of Bacteriology. DOI: 10.11 28/JB.00419-18. PMID: 30038048 Link
- Cossé, M.M., Barta, M.L., Fisher, D.J. , Oesterlin, L.K., Niragire, B., Perrinet, S., Millot, G.A., Hefty, P.S., and Subtil, A. (2018) The Loss of Expression of a Single Type 3 Effector (CT622) Strongly Reduces Chlamydia trachomatis Infectivity and Growth. Frontiers in Cellular and Infection Microbiology. 8:145. PMID: 29868501Link
- Gautama, D., Umagiliyagea, A.L., Dhitala, R., Joshia, P., Watson, D.G., Fisher, D.J., and Choudhary, R. (2017) Nonthermal pasteurization of tender coconut water using a continuous flow coiled UV reactor. LWT - Food Science and Technology. 83: 127-137. DOI: 10.1016/j.lwt.2017.05 .008 Link
- Illingworth, M., Hooppaw, A.J., Ruan, L., Fisher, D.J. and Chen, L. (2017) Biochemical and genetic analysis of the Chlamydia trachomatis GroEL chaperonins. Journal of Bacteriology. PMID: 28396349 Link
- Umagiliyage, A.L., Becerra-Mora, N., Kohli, P., Fisher, D.J., and Choudhary, R. (2017) Antimicrobial efficacy of liposomes containing d-limonene and its effect on the storage life of blueberries. Postharvest Biology and Technology. Link
- Claywell, J.E., Matschke, L.M., and Fisher, D.J. (2016) The impact of protein phosphorylation on chlamydial physiology. Frontiers in Cellular and Infection Microbiology. 6:197. PMID: 30038048 Link
- Key, C.E. and Fisher, D.J. (2016) Use of Group II Intron Technology for Targeted Mutagenesis in Chlamydia trachomatis. Methods in Molecular Biology. 1498:163-177. PMID: 27709575 Link
- Claywell, J.E. and Fisher, D.J. (2016) CTL0511 from Chlamydia trachomatis is a Type 2C Protein Phosphatase (PP2C) with Broad-Substrate Specificity. Journal of Bacteriology. PMID: 27114464 Link
- Zhang, H., Wang, Q., Fisher, D.J., Cai, M., Chakravartty, V., Ye, H., Li, P., Solbiati, J.O., Feng, Y. (2016) Deciphering a unique biotin scavenging pathway with redundant genes in the probiotic bacterium Lactococcus lactis. Scientific Reports. 6:25680. PMID: 27161258 Link
- Hooppaw, A.J. and Fisher, D.J. (2015) A Coming of Age Story: Chlamydia in the Post-Genetic Era. Infection and Immunity. Accepted. (Invited Review). PMID: 26667838 Link
- Lowden, N.M., Yeruva, L., Johnson, C.M., Bowlin, A.K., Fisher, D.J. (2015) Use of aminoglycoside 3′ adenyltransferase as a selection marker for Chlamydia trachomatis intron-mutagenesis and in vivo intron stability. BMC Research Notes. 8:570. PMID:26471806 Link
- Thompson, C.C., Griffiths, C., Nicod, S.S., Lowden, N.M., Wigneshweraraj, S., Fisher, D.J., McClure, M.O. (2015) The Rsb phosphoregulatory network controls availability of the primary sigma factor in Chlamydia trachomatis and influences the kinetics of growth and development. PLoS Pathogens. 11(8): e1005125. PMID: 26313645 Link
- Fisher, D.J., Adams, N.E., and Maurelli, A.T. (2015) Phosphoproteomic analysis of the Chlamydia caviae elementary body and reticulate body forms. Microbiology 161: 1648-1658. PMID: 25998263. Link
- Ma, M., Gurjar, A., Theoret, J.R., Garcia, J.P., Beingesser, J., Freeman, J.C., Fisher, D.J., McClane, B.A., and Uzal, F.A. (2014) Synergistic effects of Clostridium perfringens enterotoxin and beta toxin in rabbit small intestinal loops. Infect Immun. 82(7): 2958-2970. PMID: 24778117. Link
- Johnson, C.M and Fisher, D.J. (2013) Site-specific, insertional inactivation of incA in Chlamydia trachomatis using a Group II intron. PLoS ONE 8(12): e83989. PMID: 24391860. Link
- Fisher, D.J., Fernández, R.E., and Maurelli, A.T. (2013) Chlamydia trachomatis transports NAD via the Npt1Ct ATP/ADP translocase. Journal of Bacteriology. 195(15): 3381-6. PMID: 23708130. Link
- Garcia, J.P, Beingesser, J., Fisher, D.J., Sayeed, S., McClane, B.A., Posthaus, H., and Uzal, F.A. (2012) The effect of Clostridium perfringens type C strain CN3685 and its isogenic beta toxin null mutant in goats. Vet Microbiol. 157(3-4): 412-9. PMID: 22296994. Link
- *Bliven, K.A., * Fisher, D.J., Maurelli, A.T. (2012) Characterization of the activity and expression of arginine decarboxylase in human and animal Chlamydia pathogens. FEMS Microbiology Letters 337:140-6. PMID:23043454. Link *These authors contributed equally to this work.
- Fisher, D.J., Fernández, R.E., Adams, N.E., and Maurelli, A.T. (2012) Uptake of Biotin by Chlamydia Spp. Through the Use of a Bacterial Transporter (BioY) and a Host-Cell Transporter (SMVT). PLOS ONE. PMID: 23029384 Link
- Binet, R., Fernández, R.E., Fisher, D.J. and Maurelli, A.T. (2011) Identification and Characterization of the Chlamydia trachomatis L2 S-Adenosyl Methionine / S-Adenosyl Homocysteine transporter. mBio. May 10;2(3):e00051-11. PMID: 21558433 Link
- Giles, T.N., Fisher, D.J. and Graham, D.E. (2009) Independent inactivation of arginine decarboxylase genes by nonsense and missense mutations led to pseudogene formation in Chlamydia trachomatis serovar L2 and D strains. BMC Evolutionary Biology. 9:166. PMCID: PMC2720952 Link
- Uzal, F.A., Saputo, J., Sayeed S, Vidal, J.E., Fisher, D.J., Poon, R., Adams, V., Fernandez-Miyakawa, M.E., Rood, J.I. and McClane, B.A. (2009) Development and application of new mouse models to study the pathogenesis of Clostridium perfringens type C Enterotoxemias. Infection and Immunity. 77(12): 5291-9. PMCID: PMC2786445 Link
- Sayeed, S., Uzal, F.A., Fisher, D.J., Saputo, J., Vidal, J.E., Chen, Y., Gupta, P., Rood, J.I. and McClane, B.A. (2008) Beta toxin is essential for the intestinal virulence of Clostridium perfringens type C disease isolate CN3685 in a rabbit ileal loop model. Molecular Microbiology. 67(1): 15-30. (Figure from paper used for issue cover) Link
- Uzal, F.A., Fisher, D.J., Saputo, J., Sayeed, S., McClane, B.A., Songer, G., Trinh, H.T., Fernandez-Miyakawa, M.E. and Gard, S. (2008) Ulcerative enterocolitis in two goats associated with enterotoxin- and beta2 toxin-positive Clostridium perfringens type D. Journal of Veterinary Diagnostic Investigation. 20(5):668-72. Link
- Shivaprasad, H.L. Uzal, F., Kokka, R., Fisher, D.J., McClane, B.A. and Songer, A.G. (2008) Ulcerative enteritis-like disease associated with Clostridium perfringens type A in bobwhite quail ( Colinus virginianus). Avian Diseases. 52(4):635-40. Link
- Fernandez-Miyakawa, M.E., Sayeed, S., Fisher, D.J., Poon, R. Adams, V., Rood, J.I., McClane, B.A., Saputo, J. and Uzal, F.A. (2007_ Development and application of a mouse oral challenge model for studying Clostridium perfringens type D infection. Infection and Immunity. 75(9): 4282-8. PMCID: PMC1951146 Link
- Chen, Y., Caruso, L., McClane, B., Fisher, D. and Gupta, P. (2007) Disruption of a toxin gene by introduction of a foreign gene into the chromosome of Clostridium perfringens using targetron-induced mutagenesis. Plasmid. 58(2): 182-9. PMCID: PMC2034400 Link
- Miyakawa, M.E., Saputo, J., Leger, J.S., Puschner, B., Fisher, D.J., McClane, B.A. and Uzal, F.A. (2007) Necrotizing enterocolitis and death in a goat kid associated with enterotoxin (CPE)-producing Clostridium perfringens type A. Canadian Veterinary Journal. 48(12): 1266-9. PMCID: PMC2081994 Link
- Fernandez-Miyakawa, M.E., Fisher, D.J., Poon, R., Sayeed, S., Adams, V., Rood, J.I., McClane, B.A. and Uzal, F.A. (2007) Both epsilon-toxin and beta-toxin are important for the lethal properties of Clostridium perfringenstype B isolates in the mouse intravenous injection model. Infection and Immunity. 75(3): 1443-1452. PMCID: PMC1828578 Link
- Crespo, R., Fisher, D.J., Shivaprasad, H.L., Fernandez-Miyakawa, M.E. and Uzal, F.A. (2007) Toxinotypes of Clostridium perfringens isolated from sick and healthy avian species. Journal of Veterinary Diagnostic Investigation. 19(3): 329:33. Link
- Fisher, D.J., Fernandez-Miyakawa, M.E., Sayeed, S., Poon, R., Adams, V., Rood, J.I., Uzal, F.A. and McClane, B.A. (2006) Dissecting the lethality contributions of Clostridium perfringens type C toxins to lethality in the mouse intravenous injection model. Infection and Immunity, 74(9): 5200-5210. PMCID: PMC1594841 Link
- Myers, G.S.A., Rasko, D.A., Cheung, J.K., Ravel, J., Seshadri, R.,DeBoy, R.T., Ren, Q., Varga, J., Awad, M.M., Brinkac, L.M., Daugherty, S.C., Haft, D.H., Dodson, R.J., Madupu, R., Nelson, W.C., Rosovitz, M.J., Sullivan, S.A., Khouri, H., Dimitrov, G.I., Watkins, K.L., Mulligan, S., Benton, J., Fisher, D.J., Atkins, H.S., Hiscox, T., Jost, H., Billington, S.J., Songer, J.G., McClane, B.A., Titball, R.W., Rood, J.I., Melville, S. and Paulsen, I.T. (2006) Skewed Genomic Variability in Strains of the Toxigenic Bacterial Pathogen, Clostridium perfringens. Genome Research, 16: 1031-1040. PMCID: PMC1524862 Link
- Miyamoto, K., Fisher, D.J., Li, J., Sayeed, S., Akimoto, S. and McClane, B.A. (2006) Complete sequencing and diversity analysis of the enterotoxin-encoding plasmids in Clostridium perfringens type A nonfoodborne human gastrointestinal disease isolates. Journal of Bacteriology, 188(4):1585-1598. PMCID: PMC1367241 Link
- Chen, Y., McClane, B., Fisher, D.J., Rood, J. and Gupta, P. (2005) Construction of an Alpha Toxin Gene Knockout Mutant of Clostridium perfringens Type A using a Mobile Group II Intron. Applied and Environmental Microbiology, 71(11):7542-7. PMCID: PMC1287605 Link
- Sayeed, S., Fernandez-Miyakawa, M.E., Fisher, D.J., Adams, V., Poon, R., Rood, J.I., Uzal, F.A. and McClane, B.A. (2005) Epsilon toxin is required for most Clostridium perfringens type D vegetative culture supernatants to cause lethality in the mouse intravenous injection model. Infection and Immunity, 73(11):7413-21. PMCID: PMC1273886 Link
- Fisher, D.J., Miyamoto, K., Sarker, M.R., Harrison, B. And McClane, B.A. (2005) Association of beta2 toxin production with Clostridium perfringens type A human gastrointestinal disease isolates carrying a plasmid enterotoxin gene. Molecular Microbiology 56(3):747-762. Link
- Smedley III, J.G., Fisher, D.J., Sayeed, S., Chakrabarti, G. and McClane, B.A. (2004) The enterotoxins of Clostridium perfringens. Reviews in Physiology, Biochemistry and Pharmacology 72(12):6914-23. (Invited Review) Link
- Zhou, Z., Fisher, D., Spidel, J., Greenfield, J., Patson, B., Fazal, A., Wigal, C., Moe, O.A. and Madura, J.D. (2003) Kinetic and docking studies of the interaction of quinones with the quinone reductase active site. Biochemistry 42(7):1985-94. Link
- R21AI178150 Characterizing the Redoxome of Chlamydia and Its Host Cell, NIH, NIAID (Collaborator) (2023-2025)
- R21AI171228 Characterizing the Function of the Periplasmic Protease Tsp in Chlamydial Secondary Differentiation, NIH NIAID (multi-PI) (2023-2025)
- R01AI170688 Functional Analysis of the Clp Protease Systems in Chlamydial Growth and Differentiation, NIH NIAID (multi-PI) (2022-2027)
- 2R15AI109566 Unraveling the Role of Protein Phosphorylation in the Regulation of Development in Chlamydia trachomatis, NIH NIAID (PI) (2014-2023)
- R56AI146062 Role of the Clp Protease Systems in the Growth and Pathogenesis of Chlamydia, NIH NIAID (Collaborator) (2020-2022)
- 3R15AI109566 Administrative Supplement (equipment)
- R25GM107760 Southern Illinois Bridges to Baccalaureate, NIH NIGMS (multi-PI, Contact-PI) (2019-2020)
- R21AI115238 Development of Gene Inactivation Methods for Chlamydia spp., NIH NIAID (PI) (2015-2018)
- Edible Nano-Coating for Extending Shelf-Life and Improving Food Safety of Fresh Berries in Illinois, Illinois Department of Agriculture/USDA (Co-PI) (2017-2018)
- F32AI078655 Ruth L. Kirschstein National Research Service Award (Postdoctoral Fellowship), NIH, NIAID (2008-2011)