Intestinal digestion of subterranean clover by sheep

1973 ◽  
Vol 24 (4) ◽  
pp. 587 ◽  
Author(s):  
JP Hogan
Keyword(s):  
Amino Acids ◽  
Fatty Acids ◽  
Organic Matter ◽  
Small Intestine ◽  
Subterranean Clover ◽  
Diaminopimelic Acid ◽  
Long Chain Fatty Acids ◽  
Bacterial Cells ◽  
Long Chain ◽  
Chain Fatty Acids

Quantitative studies have been made of digestion in the small and large intestines of sheep offered a diet of subterranean clover (Trifolium subterraneurn c.v. Clare) at levels approaching ad libitum. As in previous studies with a similar diet, most of the digestion of organic matter and of cell wall constituents occurred in the stomach; by contrast, the release of long-chain fatty acids and amino acids mainly occurred in the intestines. Although two-thirds of the dietary long-chain fatty acids were C18:2 and C 18: 3, hydrogenation in the rumen reduced their proportion to less than 20 % in the digesta leaving the stomach. The amounts of long-chain fatty acids that passed from the stomach were equivalent to about 127 % of intake. Approximately 70 % of these fatty acids were removed from the digestive tract subsequently, and most of the absorption occurred in the small intestine. The total amounts of these fatty acids absorbed from the intestines were equivalent to approximately 90% of the amount consumed, even though their apparent digestibility in the whole tract was only 61 %. Most of the nitrogen that passed from the stomach was in the form of amino acids. Of the 189 g amino acids that passed from the stomach, less than one-third reached the terminal ileum. The net losses of individual amino acids in the small intestine ranged from 66% to 84% of the amounts that passed from the stomach. It was estimated that approximately one-third of the organic matter and almost 60% of the nitrogen that passed from the stomach was present in bacterial cells. A major component of bacterial cell walls, diaminopimelic acid, was apparently not absorbed from the small intestine, though appreciable amounts of this amino acid were lost in the large intestine.

The digestion of safflower oil-casein particles protected against ruminal hydrogenation in sheep

1972 ◽  
Vol 23 (1) ◽  
pp. 87 ◽  
Author(s):  
JP Hogan ◽  
PJ Connell ◽  
SC Mills
Keyword(s):  
Amino Acids ◽  
Fatty Acids ◽  
Small Intestine ◽  
Basal Diet ◽  
Metabolizable Energy ◽  
Safflower Oil ◽  
Net Energy ◽  
Long Chain Fatty Acids ◽  
Long Chain ◽  
Chain Fatty Acids

Three sheep were offered lucerne hay either alone or with a supplement of safflower oil-casein particles protected from microbial digestion by treatment with formaldehyde. The supplement provided an additional 70 g of long chain fatty acids and 9 g nitrogen. It was estimated that, as a result of providing the supplement, additional nutrients derived from the small intestine included about 10 g of nitrogen and 60 g of long chain fatty acids. About 38 g of these fatty acids was absorbed in polyunsaturated form. With the basal diet, negligible amounts of polyunsaturated acids were absorbed from the small intestine. The addition of safflower oil-casein particles was associated with slight but significant increases in the flow of digesta from the abomasum but had no effect on the volume of water in the rumen or on the rates of flow from the rumen or terminal ileum. It was calculated that the supplemented diet provided, per unit of organic matter intake, about 30% more metabolizable energy, 38% more net energy, and 70% more amino acids than the basal diet.

The digestion of barrel medic (Medicago truncatula) hay and seed pods by sheep

1979 ◽  
Vol 30 (6) ◽  
pp. 1177 ◽  
Author(s):  
GD Denney ◽  
JP Hogan ◽  
JR Lindsay
Keyword(s):  
Fatty Acids ◽  
Organic Matter ◽  
Small Intestine ◽  
Crude Protein ◽  
Long Chain Fatty Acids ◽  
High Loss ◽  
Barrel Medic ◽  
Organic Matter Digestibility ◽  
Long Chain ◽  
Chain Fatty Acids

Experiments were conducted to determine the digestion and utilization of barrel medic hay and pod fed separately to penned sheep. Estimates were made of intake and digestion in the whole tract. Rates of passage of digesta from the stomach and intestines were estimated by reference to radioactive markers. The organic matter of pod contained 23.8% crude protein, 5.2% long-chain fatty acids and 77.5% acid-detergent fibre including 19.9% lignin. Organic matter digestibility was only 24.3%, largely because of poor digestibility of fibre. Protein utilization was inefficient because of high loss of dietary protein in the rumen and poor digestibility in the small intestine. Only 20.3% of protein intake was absorbed from the small intestine. High loss of protein in the rumen was verified by high rumen ammonia levels, 52 mg nitrogen/100 ml rumen liquor. Long-chain fatty acids present in the pod diet, mainly in polyunsaturated form, were extensively hydrogenated in the stomach. Although only a small loss of fatty acids occurred in the stomach, 72% of the intake was absorbed from the small intestine. Pods provided only small amounts of nutrients, derived mainly from the digestion of seeds. However, energy derived from pods should be used efficiently, as a high proportion of absorbed nutrients consisted of long-chain fatty acids and amino acids. Barrel medic hay had an organic matter digestibility of 65% and contained 16.9% crude protein. Digestibility of organic matter in the stomach and intestines resembled that of lucerne, and it was concluded that barrel medic hay was similar in nutritive value to good quality lucerne hay.

Fatty acid regulation of fatty acid-binding protein expression in the small intestine

1997 ◽  
Vol 273 (2) ◽  
pp. G289-G295 ◽  
Author(s):  
H. Poirier ◽  
I. Niot ◽  
P. Degrace ◽  
M. C. Monnot ◽  
A. Bernard ◽  
...  
Keyword(s):  
Gene Expression ◽  
Fatty Acids ◽  
Small Intestine ◽  
Fatty Acid ◽  
Sunflower Oil ◽  
Long Chain Fatty Acids ◽  
Fatty Acid Binding ◽  
Fabp Gene ◽  
Long Chain ◽  
Chain Fatty Acids

The effects of dietary oil intake and fatty acid infusions on the expression of intestinal and liver fatty acid-binding proteins (I-FABP and L-FABP, respectively) were investigated in the small intestine of mice. A daily force-feeding for 7 days with 0.2 ml sunflower oil specifically increased L-FABP mRNA and protein levels in duodenum and proximal jejunum. This upregulation was mediated in time- and dose-dependent manners by a minute quantity of linoleic acid, the main fatty acid found in sunflower oil. The L-FABP induction was only found with long-chain fatty acids, with the nonmetabolizable, substituted fatty acid alpha-bromopalmitate being far more active. A hormonally mediated effect is unlikely because long-chain fatty acids induced L-FABP mRNA in the Caco-2 cell line cultured in serum-free medium. Therefore, long-chain fatty acids are strong inducers of L-FABP gene expression in the small intestine. In contrast to data found in the rat, I-FABP gene expression appears to be unaffected by a lipid-enriched diet in the mouse.

Effects of unsaturation of long-chain fatty acids on rumen protozoal engulfment and microbial protein recycling in protozoa in vitro

2019 ◽  
Vol 59 (4) ◽  
pp. 647 ◽  
Author(s):  
Mengzhi Wang ◽  
Yujia Jing ◽  
Yifan Wang ◽  
Shimin Liu ◽  
Jian Gao ◽  
...  
Keyword(s):  
Fatty Acids ◽  
Linoleic Acid ◽  
Control Group ◽  
Long Chain Fatty Acids ◽  
Bacterial Cells ◽  
Microbial Protein ◽  
Group D ◽  
Long Chain ◽  
Chain Fatty Acids

The present study investigated the effects of long-chain fatty acids with different degrees of unsaturation on rumen protozoal engulfment and microbial protein recycling by protozoa in vitro. The seven experimental treatments included stearic acid (C18:0, Group A), oleic acid (C18:1, n-9, Group B), linoleic acid (C18:2, n-6, Group C), α-linoleic acid (C18:3, n-3, Group D), arachidonic acid (C20:4, n-6, Group E), eicosapentaenoic acid (C20:5, n-3, Group F) and calcium palmitate (C16:0, control group, G), each being included at 3% (w/w) in the total culture substrate containing starch, xylan, araban, glucan, mannan, cellulose, pectin, lignin, urea and casein. Three goats fitted with rumen cannula were used to provide rumen fluid. The incubation medium was collected for the measurement of engulfing rate of bacteria by protozoa and microbial biomass after 24 h of in vitro incubation. The results showed that the bacterial density of Group D (5.75 × 109 cells/mL) was significantly higher than that of Groups A, B, E, F and G (P < 0.05), but that of the control (Group G) as well as those of Groups A and B were lower than those of Groups D and C (P < 0.05). Similarly, the bacterial protein was the highest in Group D and the lowest in Group G. The number of bacteria engulfed by protozoa per millilitre were the highest in the Control group G (847 × 105 cells/(mL.h)) and the lowest in Group D (392 × 105 cells/(mL.h)). The recycling rate of bacterial cells was lowest in Group D (0.68%) and the recycling time of bacterial cells was the longest (147 h). The quantity of protein recycled was lowest in Group D and highest in Group G, which derived from the number of bacterial cells engulfed. Therefore, it was concluded that the effects of long-chain fatty acids on rumen microbial protein recycling and microbial protein synthesis mainly relate to their degree of unsaturation, with α-linoleic acid possessing a better ability to suppress bacterial-cell (by protozoa) and reduce protein yield.

scholarly journals Differential Effects of Fatty Acid Saturation and Chain Length on NASH in Juvenile Iberian Pigs

2020 ◽  
Vol 4 (Supplement_2) ◽  
pp. 682-682 ◽  
Author(s):  
Kayla Dillard ◽  
Morgan Coffin ◽  
Gabriella Hernandez ◽  
Victoria Smith ◽  
Catherine Johnson ◽  
...  
Keyword(s):  
Fatty Acids ◽  
Body Weight ◽  
Fatty Acid ◽  
Liver Injury ◽  
Olive Oil ◽  
Coconut Oil ◽  
Long Chain Fatty Acids ◽  
Medium Chain ◽  
Long Chain ◽  
Chain Fatty Acids

Abstract Objectives Non-alcoholic fatty liver disease (NAFLD) represents the major cause of pediatric chronic liver pathology in the United States. The objective of this study was to compare the relative effect of inclusion of isocaloric amounts of saturated medium-chain fatty acids (hydrogenated coconut oil), saturated long-chain fatty acids (lard) and unsaturated long-chain fatty acids (olive oil) on endpoints of NAFLD and insulin resistance. Methods Thirty-eight 15-d-old Iberian pigs were fed 1 of 4 diets containing (g/kg body weight × d) 1) control (CON; n = 8): 0 g fructose, 10.5 g fat, and 187 kcal metabolizable energy (ME), 2) lard (LAR; n = 10): 21.6 g fructose, 17.1 g fat (100% lard) and 299 kcal ME, 3) hydrogenated coconut oil (COCO; n = 10): 21.6 g fructose, 16.9 g fat (42.5% lard and 57.5% coconut oil) and 299 kcal ME, and 4) olive oil (OLV, n = 10): 21.6 g fructose, 17.1 g fat (43.5% lard and 56.5% olive oil) and 299 kcal ME, for 9 consecutive weeks. Body weight was recorded every 3 d. Serum markers of liver injury and dyslipidemia were measured on d 60 at 2 h post feeding, with all other serum measures assessed on d 70. Liver tissue was collected on d 70 for histology, triacylglyceride (TG) quantification, and metabolomics analysis. Results Tissue histology indicated the presence of steatosis in LAR, COCO and OLV compared with CON (P ≤ 0.001), with a further increase in in non-alcoholic steatohepatitis (NASH) in OLV and COCO compared with LAR (P ≤ 0.01). Alanine and aspartate aminotransferases were higher in COCO and OLV (P ≤ 0.01) than CON. All treatment groups had lower liver concentrations of methyl donor's choline and betaine versus CON, while bile acids were differentially changed (P ≤ 0.05). COCO had higher levels of TGs with less carbons (Total carbons < 52) than all other groups (P ≤ 0.05). Several long-chain acylcarnitines involved in fat oxidation were higher in OLV versus all other groups (P ≤ 0.05). Conclusions Inclusion of fats enriched in medium-chain saturated and long-chain unsaturated fatty acids in a high-fructose high-fat diet increased liver injury, compared with fats with a long-chain saturated fatty acid profile. Further research is required to investigate the mechanisms causing this difference in physiological response to these dietary fat sources. Funding Sources ARI, AcornSeekers.

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