scholarly journals Digestion of alfalfa and grass silages in sheep. 2. Digestion of protein in reticulorumen and intestines.

1988 ◽  
Vol 36 (4) ◽  
pp. 365-374
Author(s):  
J. van Bruchem ◽  
A.K. Kies ◽  
R. Bremmers ◽  
M.W. Bosch ◽  
H. Boer ◽  
...  
Keyword(s):  
Amino Acids ◽  
Protein Synthesis ◽  
Small Intestine ◽  
Amino Acid ◽  
Milk Protein ◽  
Diaminopimelic Acid ◽  
Microbial Protein ◽  
Grass Silage ◽  
Amino Acid Profiles ◽  
Limiting Amino Acids

Wilted lucerne and grass silages were given to mature wethers. Estimates of degradability of proteins in the reticulorumen were lower with diaminopimelic acid (38-71%) than those based on amino acid profiles of dietary, microbial and duodenal proteins (64-87%). Microbial protein synthesis was related to extent of organic matter fermentation in the reticulorumen. Efficiency of protein synthesis was not different between silages. Apparent digestibility of protein and amino acids in the small intestine was lower for lucerne silage (54%) than for grass silage (60-63%), probably caused by a higher DM passage in the small intestine of lucerne silage. Relative to the amino acid profiles of milk protein and beef, histidine and methionine were the first limiting amino acids. (Abstract retrieved from CAB Abstracts by CABI’s permission)

Limitations in digestible methionine in the intestine (MetDI) for milk protein secretion in dairy cows fed a ration based on grass silage

1995 ◽  
Vol 1995 ◽  
pp. 158-158
Author(s):  
Y. Chilliard ◽  
J. Rouel ◽  
A. Ollier ◽  
J. Bony ◽  
K. Tanan ◽  
...  
Keyword(s):  
Protein Synthesis ◽  
Small Intestine ◽  
Dairy Cows ◽  
Protein Secretion ◽  
Milk Protein ◽  
Microbial Protein ◽  
Maize Silage ◽  
Microbial Protein Synthesis ◽  
Grass Silage

The interest for increasing post-ruminal methionine supplies for dairy cows fed maize silage based rations has been clearly demonstrated (Sloan 1992). Theoretically grass silage based rations are also deficient in methionine in most dietary situations. Expressed as a percentage of PDIE (protein digestible in the small intestine when energy is limiting microbial protein synthesis in the rumen) the metDI value for grass silage approximates 1.95 compared to 1.97 for maize silage.This trial was conducted, to verify, if in practice, methionine alone could limit milk protein secretion in dairy cows fed grass silage based rations.

scholarly journals Digestion of proteins of varying degradability in sheep. 2. Amount and composition of the protein entering the small intestine.

1985 ◽  
Vol 33 (3) ◽  
pp. 273-284
Author(s):  
J. van Bruchem ◽  
S.M.G. Rouwers ◽  
G.A. Bangma ◽  
S.C.W. Lammers-Weinhoven ◽  
P.W.M. van Adrichem
Keyword(s):  
Small Intestine ◽  
Amino Acid ◽  
Dietary Protein ◽  
Protein Solubility ◽  
Diaminopimelic Acid ◽  
Microbial Protein ◽  
Potato Protein ◽  
Citrus Pulp ◽  
Amino Acid Profiles ◽  
Infusion Tube

Sugarbeet pulp, citrus pulp, sugarbeet molasses and minerals and vitamins were mixed with different amounts of groundnut expeller, potato protein, peas or dried brewers' grains to give 6 concentrates with protein solubility from 7 to 51%. The concentrates (600 g daily) were given with rye grass (300 g daily) to 2 mature Texel wethers with an infusion tube into the abomasum and cannulae in the cranial duodenum and terminal ileum. Degradation of dietary protein in the rumen and synthesis of microbial protein were estimated from diaminopimelic acid and amino acid profiles. The extent of protein degradation in the rumen was almost independent of dietary protein content but varied with the nature of the diet. Degradability decreased in the order, groundnut expeller and peas, brewers' grains, potato protein. (Abstract retrieved from CAB Abstracts by CABI’s permission)

The Effect of Protected Amino Acid Supplementation on the Performance of Dairy Cows Receiving Grass Silage Plus Soyabean Meal

1994 ◽  
Vol 1994 ◽  
pp. 40-40
Author(s):  
J.C. Robert ◽  
B.K. Sloan ◽  
C. Denis
Keyword(s):  
Protein Synthesis ◽  
Amino Acid ◽  
Dairy Cows ◽  
Milk Protein ◽  
Latin Squares ◽  
Amino Acid Supplementation ◽  
Grass Silage ◽  
Lactating Dairy Cows ◽  
Soyabean Meal ◽  
Limiting Amino Acid

Methionine has been shown to be the first-limiting amino acid for milk protein synthesis in lactating dairy cows fed maize silage-based diets complemented with soyabean meal (Sloanet al., 1992) (Pisulewskiet al., 1993). Thus, the aim of this trial was to investigate the hypothesis that methionine was first-limiting or if not at least colimiting with lysine for milk protein synthesis in dairy cows fed grass silage complemented with soyabean meal.8 muciparous and 4 primiparous dairy cows six weeks into lactation were randomly allocated to three 4x4 Latin squares (cows and heifers separately), each period containing 2 weeks. The four treatments consisted of Tl = Control ; T2 = 3.7 g methionine ; T3 = 7.4 g methionine ; T4 = 7.4 g methionine and 22.2 lysine . All figures relate to estimated intestinally available amino acids, g/day (Smartamine™technology Rhône-Poulenc Animal Nutrition). The basal ration was a second cut grass silage offeredad libitumplus 0.57 kg of hay plus an average 10.9 kg concentrate.

scholarly journals The effect of fishmeal on the digestion of grass silage by growing cattle

1990 ◽  
Vol 63 (3) ◽  
pp. 489-502 ◽  
Author(s):  
D. E. Beever ◽  
M. Gill ◽  
J. M. Dawson ◽  
P. J. Buttery
Keyword(s):  
Amino Acids ◽  
Organic Matter ◽  
Small Intestine ◽  
Amino Acid ◽  
Control Diet ◽  
Ammonia Concentration ◽  
Total N ◽  
Grass Silage ◽  
Growing Cattle ◽  
Dorsal Sac

The effect of two levels of fishmeal substitution (50 (FM1) and 150 (FM2) g/kg) of a grass silage control diet (C) on the rumen digestion of organic matter and nitrogen, and the small intestinal disappearance of amino acids was examined in young growing cattle each equipped with simple PVC cannulas in the dorsal sac of the reticulo-rumen, the proximal duodenum and the terminal ileum. The silage was a primary growth of perennial ryegrass (Lnlium pevenne) (+formic acid) with a total N content of 22 g/kg dry matter (DM) (diet C). Fishmeal substitution increased this to 26 (diet FM1) and 34 (diet FM2) g/kg DM. On diets C and FM1, approximately 0.71 of digestible organic matter intake was apparently digested in the rumen, but this was significantly (P < 0.05) reduced on diet FM2 (0.60). Whilst duodenal flows of non-ammonia N and total amino acids were significantly (P < 001) increased at the highest level of fishmeal inclusion only, the synthesis of microbial N was significantly (P < 0.001) reduced by fishmeal inclusion, and feed N degradability declined progressively in response to increased fishmeal. Both levels of fishmeal addition caused a significant (P< 0.05) reduction in the fractional outflow rate of water from the rumen, and on the highest level of fishmeal significant (P< 0.05) increases in rumen ammonia concentration and rumen propionate molar proportions were observed. The net effect of the highest level of fishmeal substitution was to increase amino acid absorption from the small intestine by 0.47 compared with the control diet (P< 0.05), but due to an elevated ileal flow of amino acid no such effect was detected at the lowest level of fishmeal substitution. Composition of the absorbed amino acid fraction was relatively unaffected by the treatments imposed, despite large changes in the composition of the duodenal protein. The apparent non-linearity of response to fishmeal substitution is discussed and the amino acid supply findings are compared with the protein retention findings obtained in an earlier study by Gill et al. (1987). By two methods of calculation it was estimated that the amino acid N fraction disappearing from the small intestine was utilized with an efficiency of between 0.51 and 0.53 and no apparent effects due to diet or level of amino acid supply were detected.

scholarly journals Effect of Rumen Available Protein, Amimo Acids and Carbohydrates on Microbial Protein Synthesis, Amino Acid Flow and Performance of High Yielding Cows

1993 ◽  
Author(s):  
Gabriella A. Varga ◽  
Amichai Arieli ◽  
Lawrence D. Muller ◽  
Haim Tagari ◽  
Israel Bruckental ◽  
...  
Keyword(s):  
Protein Synthesis ◽  
Amino Acid ◽  
Dairy Cows ◽  
Milk Protein ◽  
Protein Yield ◽  
Microbial Protein ◽  
Feeding Frequency ◽  
Rumen Undegradable Protein ◽  
And Performance

The effect of rumen available protein amino acids and carbohydrates on microbial protein synthesis, amino acid flow and performance of high yielding dairy cows was studied. A significant relationship between the effective degradabilities of OM in feedstuffs and the in vivo ruminal OM degradation of diets of dairy cows was found. The in situ method enabled the prediction of ruminal nutrients degradability response to processing of energy and nitragenous supplements. The AA profile of the rumen undegradable protein was modified by the processing method. In a continuous culture study total N and postruminal AA flows, and bacterial efficiency, is maximal at rumen degradable levels of 65% of the CP. Responses to rumen degradable non carbohydrate (NSC) were linear up to at least 27% of DM. Higher CP flow in the abomasum was found for cows fed high ruminally degradable OM and low ruminally degradable CP diet. It appeared that in dairy cows diets, the ratio of rumen degradable OM to rumenally degradable CP should be at least 5:1 in order to maximize postruminal CP flow. The efficiency of microbial CP synthesis was higher for diets supplemented with 33% of rumen undegradable protein, with greater amounts of bacterial AA reaching the abomasum. Increase in ruminal carbohydrate availability by using high moisture corn increased proportions of propionate, postruminal nutrients flow, postruminal starch digestibility, ruminal availability of NSC, uptake of energy substrates by the mammory gland. These modifications resulted with improvement in the utilization of nonessential AA for milk protein synthesis, in higher milk protein yield. Higher postruminal NSC digestibility and higher efficiency of milk protein production were recorded in cows fed extruded corn. Increasing feeding frequency increased flow of N from the rumen to the blood, reduced diurnal variation in ruminal and ammonia, and of plasma urea and improved postruminal NSC and CIP digestibility and total tract digestibilities. Milk and constituent yield increased with more frequent feeding. In a study performed in a commercial dairy herd, changes in energy and nitrogenous substrates level suggested that increasing feeding frequency may improve dietary nitrogen utilization and may shift metabolism toward more glucogenesis. It was concluded that efficiency of milk protein yield in high producing cows might be improved by an optimization of ruminal and post-ruminal supplies of energy and nitrogenous substrates. Such an optimization can be achieved by processing of energy and nitrogenous feedstuffs, and by increasing feeding frequency. In situ data may provide means for elucidation of the optimal processing conditions.

scholarly journals Harnessing the value of rumen protected amino acids to enhance animal performance

2021 ◽  
Vol 0 (0) ◽  
Author(s):  
Mitra Mazinani ◽  
Erdogan Memili ◽  
Brian J. Rude
Keyword(s):  
Amino Acids ◽  
Small Intestine ◽  
Amino Acid ◽  
Current Trend ◽  
Building Blocks ◽  
Microbial Protein ◽  
Daily Production ◽  
Main Site ◽  
Rumen Degradation ◽  
Amino Acid Requirements

Abstract In general, higher mammals need nine amino acids in their diets as building blocks to synthesize proteins while ruminants can produce some of them through the synthesis of microbial proteins. Diet is utilized by ruminal microorganisms to synthesize microbial protein (MCP) which is digested in the small intestine (SI). Although protein and amino acid requirements in ruminants are subject to microbial protein synthesis, it is not enough for optimal daily production. Therefore, there is a current trend towards supplementing amino acids in ruminant diets. In the rumen, free amino acids can be degraded by rumen bacteria, therefore, the AAs need to be supplemented in a protected form to be stable in the rumen and absorbable post-ruminal for metabolic purposes. The main site of amino acid absorption is the small intestine (SI), and there is a need to keep AA from ruminal degradation and direct them to absorption sites. Several approaches have been suggested by feed scientists to decrease this problem such as defaunation and debacterization of the rumen against amino acid-fermenting fungi and bacteria, inhibitors or antagonists of vitamin B6 enzymes, diet composition and also protecting AA from rumen degradation. A number of studies have evaluated the roles of amino acids concerning their effects on milk yield, growth, digestibility, feed intake and efficiency of nitrogen utilization of ruminants. The focus of this review was on experimental and research studies about AAs in feedstuff, metabolism, supplementing amino acids for ruminants and the current trends of using rumen protected amino acids.

The influence of the method of preservation of forages on the digestion in dairy cows. 2. Digestion of organic matter, energy and amino acids in forestomachs and intestines.

1975 ◽  
Vol 23 (2) ◽  
pp. 89-103
Author(s):  
S. Tamminga
Keyword(s):  
Amino Acids ◽  
Organic Matter ◽  
Small Intestine ◽  
Amino Acid ◽  
Formic Acid ◽  
Dairy Cows ◽  
Grass Silage ◽  
Matter Energy

2. Two dairy cows with duodenal reentrant and rumen cannulae were given diets containing artificially dried and pelleted grass (GP), grass silage treated with formic acid (GSF), grass silage treated with a mixture of formic acid and formaldehyde (GSFF) or grass silage without additive (GS). DM intake was 14.8 to 16.0 kg/day and about 30% of the N in the diets was from grass pellets or silages. Between 45 and 57% of the apparently digested organic matter and between 26 and 41% of the apparently digested energy disappeared before the intestines. The higher values were found with GSF and GS.Total amino acid N reaching the duodenum was between 104 and 134% of intake, highest with GP and GSFF. The amounts of individual amino acids reaching the small intestine were from 75 to 270% of the amounts ingested. High values (>150%) were found for glycine, lysine, methionine and tyrosine; low values (

scholarly journals The nutritive value of rumen micro-organisms in ruminants

1984 ◽  
Vol 52 (3) ◽  
pp. 613-620 ◽  
Author(s):  
E. Strom ◽  
E. R. Øskov
Keyword(s):  
Amino Acids ◽  
Small Intestine ◽  
Nutritive Value ◽  
Microbial Protein ◽  
N Retention ◽  
Limiting Amino Acids ◽  
Micro Organisms

1. Four experiments were carried out to identify and quantify the limiting amino acids (AA) in rumen microbial protein (RMP).2. A method was developed which involved first, an assessment of the efficiency of utilization of absorbed AA-nitrogen (U) of RMP, defined as the retention of AA-N from RMP absorbed from the small intestine, and second, addition of a mixture of AA similar to the absorbed AA profile in a quantity defined by the U of RMP and equal to (1 – U)/U. Third, it involved removal of each AA in turn and measurement of the resultant N retention. Using this approach it was possible to calculate both the order and extent of AA limitations in RMP.3. Apart from methionine which was found to be the most limiting AA, only lysine, arginine and histidine reduced N retention when omitted, and accordingly only these AA were limiting in RMP.4. The method is discussed in detail and the amount of supplementary AA required to utilize RMP fully is calculated.

scholarly journals Digestion, absorption and utilization of single-cell protein by the preruminant calf

1985 ◽  
Vol 54 (1) ◽  
pp. 219-244 ◽  
Author(s):  
Cynthia A. Sedgman ◽  
J. H. B. Roy ◽  
Joanne Thomas ◽  
I. J. F. Stobo ◽  
P. Ganderton
Keyword(s):  
Amino Acids ◽  
Small Intestine ◽  
Amino Acid ◽  
Milk Protein ◽  
Alimentary Tract ◽  
Latin Square ◽  
Essential Amino Acids ◽  
Apparent Digestibility ◽  
Bacterial Protein ◽  
True Digestibility

1.Two experiments of Latin square design were made, each with four Friesian bull calves fitted with re-entrant duodenal and ileal cannulas at 4–10 d of age. The calves were used to studythe effect of giving milk-substitutes containing 0, 300, 500 and 700 g bacterial protein (Pruteen)/kg total protein on apparent digestibility of nitrogen fractions and amino acids and true digestibility of 3H-labelled milk protein and 35S-labelled bacterial protein in the small intestine. A third experiment of Latin square design with four intact Friesian calves was used to measure apparent digestibility of nutrients throughout the alimentary tract and retention of N, calcium and phosphorus.2.At the duodenum, volume of outflow, its pH, and outflow of total-N (TN), protein-N (PN) and non-protein-N (NPN) decreased with time after feeding. At the ileum, volume of outflow and TN outflow were unaffected by time after feeding but PN outflow decreased; NPN outflow at the ileum increased to a maximum 6 h after feeding and then declined.3.Increased inclusion of Pruteen did not affect the volume of outflow at the duodenum or ileum, but duodenal PN outflow increased. At the ileum, pH values were lower and TN, PN and NPN outflows were higher with increasing concentration of Pruteen in the diet. Apparent digestibility in the small intestine tended to decrease with greater amounts of Pruteen, but was only significant for NPN. Apparent digestibility from mouth to ileum significantly decreased for TN and PN as Pruteen inclusion increased.4.Amino acid concentration in duodenal outflow, with the exception of that of arginine, reflected intake. The total amount of each amino acid in ileal outflow increased and the apparent digestibility of most amino acids decreased with greater amounts of Pruteen in the diet. Apparent digestibility of nucleic acid-N from Pruteen was very high.5.True digestibility in the small intestine and between mouth and ileum of 3H-labelled milk protein was high and did not differ between dietary treatments. True digestibility of 36S-labelled Pruteen was low for the milk-protein diet and tended to increase linearly as more dietary Pruteen was included.6.Dry matter concentration in faeces and a high apparent digestibility throughout the whole alimentary tract of carbohydrates did not differ between treatments. Apparent digestibility of dry matter, organic matter, crude protein and fat, apparent absorption of Ca, P and ash throughout the tract, retention of N, Ca and P and biological value of the protein decreased with inclusion rates greater than 300 g Pruteen/kg total dietary protein. The amount of N apparently absorbed in the large intestine was estimated as 0.9 g/d.7.Comparison of intake of apparently absorbed essential amino acids with requirement suggests that histidine is likely to be the limiting amino acid, assuming that arginine is synthesized in the body.8.Efficiencies of utilization of protein for tissue synthesis and to cover obligatory loss are estimated as 0.80, 0.75, 0.66 and 0.47 for diets containing 0, 300, 500 and 700 g Pruteen/kg total protein in the diet. Efficiencies of utilization of individual essential amino acids were also estimated.

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