Crystal structure determination and site-directed mutagenesis of active site residues in Escherichia coli ketol-acid reductoisomerase /

Tyagi, Rajiv.

January 2005

Thesis (Ph.D.) - University of Queensland, 2005. / Includes bibliography.

Psychrotolerance and branched-chain fatty acids in Listeria monocytogenes

Zhu, Kun. Wilkinson, Brian J.

January 2004

Thesis (Ph. D.)--Illinois State University, 2004. / Title from title page screen, viewed May 23, 2006. Dissertation Committee: Brian J. Wilkinson (chair), Radheshyam K. Jayaswal, Anthony J. Otsuka, David L. Williams, Wade A. Nichols. Includes bibliographical references (leaves 105-113) and abstract. Also available in print.

Function of ketol-acid reductoisomerase in stabilizing mitochondrial DNA /

Christie, Michelle P.

January 2005

Thesis (M.Phil.) - University of Queensland, 2005. / Includes bibliography.

The effect of branched-chain amino acid ingestion on physical performance during prolonged exercise

Velloza, Peter Edward

January 1996

It has been hypothesized that an increase in the ratio of plasma tryptophan (TRP) to branched-chain amino acid (BCAA) concentrations may mediate an increase in cerebral serotonin synthesis, through an increased cerebral tryptophan uptake. It is postulated that the increased brain serotonin content may induce central fatigue during prolonged exercise. Until present, this postulate had not been subject to rigorous scientific testing during prolonged exercise. Therefore the aim of this study was to investigate whether ingesting a BCAA supplement during prolonged exercise improves physical performance and central fatigue. The use of such a supplement during prolonged exercise could then be expected to have a large effect on performance. Eight trained cyclists (VO₂ max= 61.9 ± 4.3 ml 02/kg/min) ingested, in random order, a drink containing either 10% carbohydrate (CHO), 10% CHO and 0.16% branched-chain amino acid (BCAA) or 0.16% BCAA. Every hour, for the duration of the exercise (4 hours, 55% VO₂ max) blood samples were analysed for amino acids, ammonia, free fatty acids, glycerol, glucose and insulin concentrations. Urine was analysed for urea and creatinine concentrations. Heart rate, oxygen consumption (VO₂), respiratory exchange ratio (RER) and rating of perceived exertion were also analysed. Thereafter, subject's 40km time trial performance and RPE was assessed on a Velodyne windtrainer. Central fatigue following the time trial was quantified using the Sternberg reaction-time paradigm. The serum concentration of the BCAA's declined as a result of the exercise, in the BCAA only trial. Tryptophan concentration, however, did not change during the exercise. The serum TRP:BCAA ratio increased (0.16 ± 0.06 to 0.20 ± 0.10; p≤0.05) in the CHO trial only. The BCAA trial differed from the two trials in which CHO was ingested because plasma ammonia and glucose concentrations did not increase, while free fatty acids (FF A's) and glycerol concentrations increased significantly (p≤0.05). The lower RER in the BCAA trials suggests a higher proportion of fat was oxidised in these trials, compared to the other two trials. Cycling performance, over a 40km time trial, (CHO= 68.59 ± 6.02; CHO+ BCAA = 68.00 ± 3.01; BCAA = 69.43 ± 5.35 min/sec), ratings of perceived exertion, submaximal or maximal heart rates, and mental performance were not different between trials. Data from this study appears to refute the thesis hypothesis that an increase in serum TRP:BCAA decreases physical performance and central fatigue, during prolonged exercise.

Amino Acids, Branched-Chain - analysis

Exercise - physiology

Exercise Science

Branched-chain amino acids ameliorate heart failure with cardiac cachexia in rats / 分岐鎖アミノ酸は心臓悪液質を伴ったラット心不全モデルの病態を改善する

Tanada, Yohei

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19601号 / 医博第4108号 / 新制||医||1014(附属図書館) / 32637 / 京都大学大学院医学研究科医学専攻 / (主査)教授 岩井 一宏, 教授 柳田 素子, 教授 山下 潤 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Heart failure

Cachexia

Branched-chain amino acids

490

Effects of supplemental 2-hydroxy-(4-methylthio) butanoic acid and branched chain volatile fatty acids in lactating dairy cows

Copelin, Jacob E.

January 2019

No description available.

Animal Sciences

Stimulation of Microbial Protein Synthesis by Branched-Chain Volatile Fatty Acids in Dual Flow Cultures Varying in Forage and Polyunsaturated Fatty Acid Concentrations

Mitchell, Kelly Elizabeth

January 2022

No description available.

Nutrition

Animal Sciences

Microbiology

Expression studies on the shortbranched chain acyl-CoA dehydrogenase (SBCAD) gene

Vicanek, Caroline Michaela

January 1995

No description available.

Gene expression

Dehydrogenases

Branched-chain amino acid nutrition and respiratory stability in premature infants

Nelson, Christy L.

January 2002

Thesis (Ph. D.)--University of Missouri--Columbia, 2002. / Typescript. Vita. Includes bibliographical references (leaves 202-211). Also available on the Internet.

Rumen Microbial Ecology And Rumen-Derived Fatty Acids: Determinants Of And Relationship To Dairy Cow Production Performance

Cersosimo, Laura Marie

01 January 2017

Rumen microbiota enable dairy cattle to breakdown fiber into useable energy for milk production. Rumen bacteria, protozoa, and fungi ferment feedstuff into volatile fatty acids (VFA), the main energy source, while methanogens utilize fermentation by-products to produce methane. Milk fat contains several bioactive rumen-derived fatty acids (FA), including odd-chain FA (OCFA) and branched-chain FA (BCFA), important for maintenance of human health. The overarching dissertation goal was to determine which factors affect rumen methanogen and protozoal community structures and their metabolism products, while defining relationships between rumen microbiota and animal performance. Results presented contribute to the goals of providing new knowledge to dairy farmers, maintaining ruminant health, and enhancing bioactive FA in milk. The first objective was to use next-generation sequencing techniques to determine if lactation stage and dairy breed affect rumen methanogen and protozoal community structures and protozoa cell FA compositions in Jersey, Holstein, and Holstein-Jersey crossbred cows at 3, 93, 183, and 273 days in milk (DIM). A core methanogen community persisted by lactation stage and breed. At 3 DIM, methanogen 16S rRNA gene sequences formed distinct clusters apart from 93, 183, and 273 DIM, reflective of the dietary transition period post-partum. The starch-utilizing protozoal genus Entodinium, was more abundant in Holsteins than in Jerseys and Holstein-Jersey crossbred cows and positively correlated with milk yield. Jerseys had greater iso-BCFA contents in protozoa and milk and protozoa of the genus Metadinium. The second objective was to determine if supplementation of mixed cool-season grasses with annual forages (AF) alters the forage, microbial, and milk FA contents during typical periods of decreased pasture growth in Northeastern US. In short-term grazing (21d) of AF, ruminal VFA and major rumen-derived FA were not altered in bacterial and protozoal cells, suggesting little alteration of biohydrogenation and maintenance of ruminant health. In spring, milk contents of iso-15:0 and 17:0 per serving of whole milk were greater in control (CON)-fed cows, while contents of 12:0 and 14:0 per serving were greater in AF-fed cows. Contents of de novo FA and OCFA per serving of whole milk were greater in summer AF-fed cows than CON-fed cows, while total contents and BCFA did not differ, suggesting post-ruminal FA modifications in adipose tissue and the mammary gland. The third objective was to characterize and relate the rumen microbiota from CON- and AF-fed cows to animal performance. Rumen protozoal taxa were not altered, while less abundant bacterial taxa (< 5%) were different in both periods. The protozoal genus Diplodinium was positively correlated with feed efficiency and milk fat yield. In spring, AF-fed cows had greater abundances of the methanogen species Methanobrevibacter millerae, whereas CON-fed cows had greater abundances of the methanogen species Methanobrevibacter ruminantium, potentially as a result of differences in substrate availability. In conclusion, the work presented identifies several factors that influence rumen microbiota, rumen microbial FA, and milk FA, while providing new information to dairy farmers, researchers, and consumers.

archaea

bacteria

branched-chain

breed

odd-chain

protozoa

Agriculture

Microbiology

Molecular Biology