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United States Department of Agriculture

Agricultural Research Service

Research Project: EFFICIENCY OF NUTRIENT USE IN CATTLE:IDENTIFICATION OF CRITICAL PHYSIOLOGIC AND GENOMIC REGULATORY PATHWAYS Title: Gene expression in the digestive tissues of ruminants and their relationships with feeding and digestive processes

Authors
item Connor, Erin
item Li, Robert
item Baldwin, Ransom
item Li, Congjun

Submitted to: Ruminant Physiology International Symposium Proceedings
Publication Type: Abstract Only
Publication Acceptance Date: April 21, 2009
Publication Date: July 17, 2009
Citation: Connor, E.E., Li, R.W., Baldwin, R.L., Li, C. 2009. Gene expression in the digestive tissues of ruminants and their relationships with feeding and digestive processes.ISRP XIth International Symposium on Ruminant Physiology, Clermont-Ferrand, France, September 6-9.

Technical Abstract: The gastrointestinal (GI) tract has multiple functions including digestion, nutrient absorption, secretion of hormones, and excretion of wastes. In the ruminant animal, development of this organ system is more complex than that of the monogastric animal due to the necessity to establish a fully functional and differentiated rumen, in which a diverse microbial population of bacteria, fungi and protozoa support fermentation and digestion of dietary fiber. Central to the goal of animal scientists to enhance nutrient uptake and production efficiency of ruminants is the need for a comprehensive understanding of GI development, as well as conditions that alter the digestion process. The relatively recent availability of genome sequence information has permitted physiological investigations related to the process of digestion for many agriculturally-important species at the gene transcript level. For instance, numerous studies have evaluated the expression of ruminant GI tract genes to gain insight into mechanisms involved in normal function, physiology, and development, such as nutrient uptake and transport across the epithelial cell barrier throughout the alimentary canal, maintenance of rumen pH, and regulation of GI tract motility, and cell proliferation. Further, multiple studies have examined the effects of dietary modification, including feeding of supplemental fat, starch and protein, or a forage- versus concentrate-based diet on expression of critical gene pathways in the gut. In addition, the expression of genes in the GI tract in response to disease, such as infection with GI parasites, has been investigated. This review will summarize some of the recent scientific literature related to gene expression in the GI tract of ruminants, primarily cattle, sheep and goats, as it pertains to 1) normal physiology, 2) dietary effects, 3) developmental effects, and 4) disease effects to provide an overview of critical proteins participating in the overall digestive processes, and their physiological functions. Recent findings from our laboratory will be highlighted also related to expression of the glucagon-like peptide 2 hormone pathway in the GI tract of dairy cattle during various stages of development and lactation, alterations in gene pathways associated with rumen development and differentiation in the weaning calf, and genes of the GI tract responding to Ostertagia, a common nematode infection of cattle. Finally, prospective areas of investigation will be discussed.

Last Modified: 7/28/2014
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