Craig L Franklin
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Explore the profile of Craig L Franklin including associated specialties, affiliations and a list of published articles.
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81
Citations
1663
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Recent Articles
1.
Gustafson K, Rodriguez T, McAdams Z, Coghill L, Ericsson A, Franklin C
Gut Microbes
. 2025 Jan;
17(1):2447815.
PMID: 39812347
To study the impact of differing specific pathogen-free gut microbiomes (GMs) on a murine model of inflammatory bowel disease, selected GMs were transferred using embryo transfer (ET), cross-fostering (CF), and...
2.
Gustafson K, Busi S, McAdams Z, McCorkle R, Khodakivskyi P, Bivens N, et al.
bioRxiv
. 2024 Nov;
PMID: 39484583
Background: The microorganisms colonizing the gastrointestinal tract of animals, collectively referred to as the gut microbiome, affect numerous host behaviors dependent on the central nervous system (CNS). Studies comparing germ-free...
3.
Gustafson K, Rodriguez T, McAdams Z, Coghill L, Ericsson A, Franklin C
bioRxiv
. 2024 Oct;
PMID: 39386691
To study the impact of differing specific pathogen-free gut microbiomes (GMs) on a murine model of inflammatory bowel disease, selected GMs were transferred using embryo transfer (ET), cross-fostering (CF), and...
4.
McAdams Z, Yates J, Turner G, Dorfmeyer R, Wight-Carter M, Amos-Landgraf J, et al.
Gut Microbes Rep
. 2024 Sep;
1(1):1-8.
PMID: 39328895
The gut microbiota (GM) influences multiple processes during host development and maintenance. To study these events, fecal microbiota transfer (FMT) to germ-free (GF) recipients is often performed. Mouse models of...
5.
Teboul L, Amos-Landgraf J, Benavides F, Birling M, Brown S, Bryda E, et al.
Nat Commun
. 2024 Jul;
15(1):5574.
PMID: 38956430
The biomedical research community addresses reproducibility challenges in animal studies through standardized nomenclature, improved experimental design, transparent reporting, data sharing, and centralized repositories. The ARRIVE guidelines outline documentation standards for...
6.
Russell A, McAdams Z, Donovan E, Seilhamer N, Siegrist M, Franklin C, et al.
Sci Rep
. 2023 Aug;
13(1):13660.
PMID: 37608207
There is limited understanding of how the microbiota colonizing various maternal tissues contribute to the development of the neonatal gut microbiota (GM). To determine the contribution of various maternal microbiotic...
7.
Moley C, Chambers C, Dadelahi A, Ponzilacqua-Silva B, Abushahba M, Lacey C, et al.
Am J Pathol
. 2023 Jun;
193(9):1170-1184.
PMID: 37263343
Brucellosis is a globally significant zoonotic disease. Human patients with brucellosis develop recurrent fever and focal complications, including arthritis and neurobrucellosis. The current study investigated the role of innate lymphoid...
8.
Men H, Amos-Landgraf J, Bryda E, Franklin C
Theriogenology
. 2022 Dec;
198:69-74.
PMID: 36563630
A modified KSOM for rat embryo culture (KSOM-R), which has enriched taurine, glycine, glutamic acid, and alanine, promoted rat embryo development in vitro. Since mice and rats share similar amino...
9.
Zhang C, Shi Y, Burch M, Olthoff B, Ericsson A, Franklin C
Sci Rep
. 2022 Nov;
12(1):19621.
PMID: 36380056
To test causal relationships between complex gut microbiota (GM) and host outcomes, researchers frequently transfer GM between donor and recipient mice via embryo transfer (ET) rederivation, cross-fostering (CF), and co-housing....
10.
Russell A, Copio J, Shi Y, Kang S, Franklin C, Ericsson A
Cell Rep
. 2022 May;
39(6):110783.
PMID: 35545042
The gut microbiome of humans and animals is critical to host health. Mice are used to investigate the microbiome and its influences; however, the predictive value of such studies is...