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Published in 2020 at "Heliyon"
DOI: 10.1016/j.heliyon.2020.e04112
Abstract: As a critical and high-value tool to study the development of rumen, we established a stable rumen epithelial primary cell (REPC) culture from a two-week-old Holstein bull calf rumen epithelial tissue. The transcriptomic profiling of…
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Keywords:
rumen development;
rumen epithelial;
epithelial primary;
repc culture ... See more keywords
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Published in 2019 at "Frontiers in Genetics"
DOI: 10.3389/fgene.2019.00929
Abstract: A healthy gut is very important for young animal development. The rumen of ruminants expands in size with the colonization of microbiota by 2 months of age. This process is promoted by alfalfa intervention. To…
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Keywords:
analysis reveals;
rumen development;
transcriptome analysis;
metabolic processes ... See more keywords
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Published in 2022 at "Frontiers in Genetics"
DOI: 10.3389/fgene.2022.821406
Abstract: Rumen development is a crucial physiological challenge for ruminants. However, the molecular mechanism regulating rumen development has not been clearly elucidated. In this study, we investigated genes involved in rumen development in 13 rumen tissues…
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Keywords:
three developmental;
rumen development;
developmental stages;
gwas signals ... See more keywords
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Published in 2023 at "Frontiers in Microbiology"
DOI: 10.3389/fmicb.2022.1069964
Abstract: Feeding with a suitable level of milk replacer (MR) can improve the survival rate and stimulate the growth potential of early lambs. However, feeding excessive MR might be detrimental to rumen development and microbial colonization.…
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Keywords:
feeding level;
rumen development;
growth performance;
level ... See more keywords
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Published in 2022 at "Frontiers in Physiology"
DOI: 10.3389/fphys.2022.979121
Abstract: The rumen is an essential digestive and absorption organ of ruminants. During fetal life, lactation, and post-weaning period, goat rumen undergoes drastic morphological and metabolic-functional changes triggered by potential regulated genes and non-coding RNA molecules.…
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Keywords:
rumen development;
acid metabolism;
development;
genome wide ... See more keywords
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Published in 2022 at "Biomolecules"
DOI: 10.3390/biom12091177
Abstract: Butyrate is produced in the rumen from microbial fermentation and is related to several functions, including cell differentiation and proliferation. Butyrate supplementation in calves can accelerate rumen development. DNA-protein interactions, such as the CCCTC-binding factor…
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Keywords:
dcbs;
rumen development;
ctcf binding;
butyrate ... See more keywords
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Published in 2022 at "Genes"
DOI: 10.3390/genes13030535
Abstract: Weaning in ruminants is characterized by the transition from a milk-based diet to a solid diet, which drives a critical gastrointestinal tract transformation. Understanding the regulatory control of this transformation during weaning can help to…
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Keywords:
rumen development;
accessible chromatin;
cattle rumen;
rumen epithelial ... See more keywords
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Published in 2023 at "Genes"
DOI: 10.3390/genes14051093
Abstract: Selecting suitable feed types and understanding the gastrointestinal digestive mechanism are helpful for the growth and health of calves in intensive dairy farming. However, the effects on rumen development of changing the molecular genetic basis…
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Keywords:
rumen development;
signaling pathway;
integration non;
development ... See more keywords
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Published in 2022 at "Metabolites"
DOI: 10.3390/metabo12050374
Abstract: After birth, as effectively monogastric animals, calves undergo substantial physiological changes to become ruminants by 3 months of age and reach sexual maturity at approximately 15 months of age. Herein, we assess longitudinal metabolomic changes…
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Keywords:
rumen development;
growth;
development;
holstein friesian ... See more keywords