Both ruminants and non ruminants can synthesize dispensable amino acids (non essential AA) but can't synthesize indispensable amino acids (essential AA), so essential AA must be provided from feed. In ruminant there is microbial population that is responsible for the synthesis of proteins. Due to synthesis of these microbial proteins the profile of the amino acid in small intestine is different from diet. 19-Arid-2290 Evening-A
Ruminant have a large microbial population that are capbale of synthesizing microbial protein which in turn enables ruminants for efficient use of NP etc. 19-arid-2208
Ruminant have a large microbial population that are capbale of synthesizing microbial protein which in turn enables ruminants for efficient use of NP etc. 19-Arid-2316
1- Ruminants can be productive without a source of dietery true proteins. 2- The type of feed does not the composition of amino acids of bacteria and protozoa leaving rumen. 19-arid-2197
1-)Ruminants can synthesize dispensable Amino Acids. While non ruminants can not. 2-)Partial aspects of Urea feeding in ruminants is that Urea=281%CP equivalent where N=45% of Urea(45%×6.25=281%CP). 19-Arid-4425
ruminants tissue can synthesize dispensable amino acids amino acids cannot be synthesized and they are supplied as they required 19-arid-2203 Jahangir Iqbal section A
Ruminants and non ruminants have similar metabolic pathways at tissue level for example metabolism of amino acids at tissue level is brought by same pathways both in ruminants and non ruminants. Both can synthesize dispensable/non essential amino acids and both can't synthesize indispensable/essential amino acids. Ruminants have diversified microbial population in rumen which are capable of synthesizing microbial proteins. With the help of these microbes ruminants can upgrade low quality dietary proteins and down grade high quality dietary proteins. 19-Arid-2201.
Ruminant have a large microbial population that are capbale of synthesizing microbial protein which in turn enables ruminants for efficient use of NP Amino acids are not stored so they should be constantly supplied and the urea supply should be less for slow utilisation. 19-Arid-2223
Ruminants have microbes in the rumen which enable them to synthesize the dietary proteins. Urea should be fed at the rate of 1% to total DM to avoid urea toxicity 19-arid-2217 (morning-A)
Ruminants and non Ruminants have similar metabolic pathways. Tissue proteins constantly undergoing turnover. Amino acids are not stored, constant supply of amino acid is required. 19-ARID-2205
1. In dairy cows the upper limit for urea feeding is 1% dry matter diet. 2. If amino acids are in excess as compared to the body requirements, its is oxidized. 19-arid-2240
As the rumminants have ability to produce microbial protein so there A.A profile is different in small intestine than that of monogastric animals. If the Amino acids are in excess than body need so these undergoes oxidation and synthesis protein. 19-arid-2284
1) Ruminants have the a ability to convert low quality protein to high quality protein and vice versa, so for this reason amino acid profile differs in diet and in small intestine. 19-ARID-2248
Dietary protein for ruminants includes nitrogen (N) occurring in true protein and non-protein. In the rumen, the true protein is degraded into amino acid (AA) and ammonia and then utilized by ruminal microorganisms to synthesize microbial protein (MCP). 19-Arid -2204 (A)
In ruminants, there is presence of microbe population that help in production of microbial proteins and ruminants can survive on low quantity of dietary proteins by recycling nitrogen back to rumen. 19-Arid-2315
1-Amino acid profile is different in small intestine of ruminants when compared to monogastrics. 2-Oxidation and protein synthesis ate the upshots when amino acids increase in the body of Animal. 19-ARID-2283
Ruminants can synthesize essential amino acids in addition to non essential amino acids. Moreover ruminants can also nitrogen contents from NPN compounds but monogastric species lack this ability. Amino acid profile varies in small intestine of ruminants because they have ability to upgrade low quality protein or downgrade high quality protein. 19-Arid-2236(A)
1. Ruminants have microbial protein synthesis, which help in NPN utilization efficiently. 2. Ruminants can convert low quality dietery proteins into high quality by rumen fermentation. 19-ARID-2264
Weston and Hogan experimented to know the wool growth of two sheep fed on different diets. One sheep is fed on lucerne, corn etc. (having CP value of 18%) while other sheep is fed on wheatened hay and corn (having CP content 8%). The two sheep show identical wool growth. Experiment further showed that sheep that was fed on a diet of higher CP content has faced a net loss in amino acid-nitrogen (gm/day) that entered in small intestine as compared to the nitrogen intake from diet. On the other hand, sheep having lower nitrogen intake from diet showed net gain in nitrogen that entered into small intestine. From here, we can conclude that ruminant animals are able to convert low quality feed into good quality while feed with high protein content face downfall. 19-Arid-2224
1- Ruminants have microbial population that involves in microbial protein synthesis. 2- Ruminants can be productive without the source of dietary true protein. 19-Arid-2262
As in nonruminants these essential amino acids must be supplied either from the digestive tract or from the catabolism of body proteins. Despite similarities in amino acid meta- bolism at the tissue level, wide differences occur between ruminants and nonruminants in tile fate of ingested protein. 19-ARID-2260
19 Arid 2194 Danish ali ruminants have microbial polulation and the microbial protein synthesis ruminats can be profuctive without the source of dietary protein
N utilization :ruminants acn be productive even without dietry true protein Urea acn acuse toxicity in them . So we give 1% urea in relation to total diet 19-arid-2276 Evening b
Ruminants have microbial population - microbial protein synthesis AA profile at S. I different from diet Enables ruminants to use NPN efficient. 19-arid-2297
1- Amino acids cannot be stored if there is high amount of AA in diet it may oxidize or it is converted into protein that is deposited in tissue. 2- During feeding we should kept in mind that ammonia high level may cause toxicity. 2mg ammonia per 100ml plasma is toxic. 19-arid-2182
Ruminant tissues can synthesize dispensable AA. But it cannot synthesize indispensable AA-ESsential AA must be provided from digestive tract. TISSUE proteins constantly undergoing turnover. 19-Arid_2209
1.In ruminant nutrition generally not concerned with AA composition of dietary protein. 2.Animal can survive on low quantity of dietary protein by recycling nitrogen back to rumen. 19-Arid-2269
--Ruminants have microbes in the rumen which enable them to synthesize the dietary proteins. --In Ruminants, type of feed not affect the dietary proteins production, but in case of monogastric species, the type of feed with specific protein concentration matters alot. 19-ARID-2309
1. In ruminants nutrition, generally not considered with AA composition of dietary protein. 2. Ruminants can be productive without a source of dietary true proteins. 19-arid-2219
1.In both ruminants and non-ruminants, the constant supply of amino acids is required as there is no storage or amino acids. 2. The 2mg of ammonia in 100ml plasma is toxic and precautionaty measures are taken during feeding urea to animal. 19-Arid-2196
.In Ruminants nutrition there is no concern with Amino acid composition of dietary protein. As ruminants can be productive without source of dietary protein. Ruminants can synthesize microbial proteins while the non ruminants can not synthesize 19-Arid-2181
#1) Both ruminants and non-ruminants are not able to store amino acids that's why there is a need for regular intake of essential amino acids in the diet and synthesis of the non-essential amino acids from various chemical reactions. #2) If the Urea is considered as the source of nitrogen that is it contains 45 % nitrogen, this percentage can theoretically produce 281% crude protein which is hard to be practically accomplished. 19-arid-2246
Ruminants have microbial species in the rumen so they are able to produce microbial proteins. Ruminants are able to upgrade the low quality dietary protein and downgrade the high quality dietary protein in ruminal cavity. 19-arid-2301
The both ruminants and non ruminants can synthesize indespensible proteins but both can't synthesize essential proteins which have to be given in diet. The ruminants can synthesize microbial protein while the non ruminants can not. 19-arid-4423
1. In ruminant and non ruminant animal,the metabolic pathways followed by protein end products,synthesis of different amino acids and synthesis of proteins at tissue level are similar. 2. The ruminant animals are capable of upgrading a low quality dietry protein and at the same time they downgrade high quality dietry proteins. 19-Arid-2186
1) AA composition of bacteria is not affected by type of feed. 2) ruminants cannot synthesize amino acids so require amino acids in diet regularly. 19-arid-2192
Microbial population present in ruminants enables them to use NPN efficiently. Ruminants can be productive without a source of dietary true protein... 19-Arid-2267
The metabolic pathways followed by protein and products and production of different amino acids and proteins at tissue level is similar in ruminants and non ruminants. Synthesis of non essential or dispensable amino acids is similar in both ruminants and non ruminants but both cannot synthesize essential or non dispensable amino acids so they should be present in diet. 19-Arid-2263
ruminants amino acid profile varies in the small intestine as they are able to upgrade low-quality protein or downgrade high-quality protein. the ruminants can synthesize microbial protein while the non-ruminants can't. ' 19-arid-2198
Ruminants can be productive without a source of dietary true protein. In ruminants nutrition generally not concerned with amino acids composition of dietary protein. M. Ramzan 19-ARID-2307
If Amino Acids are in excess amount of the body diet , they are oxidized. if they make protein , it wil store in tissues in protein form rather than amino acid form . 19-Arid-2216
✓In ruminant animals, the composition of injested dietry proteins is not of concern. The high quality proteins are down graded while low quality proteins are upgraded ✓Theoretically urea is calculated to have 281% crude protein equivalence but experimentally this theory is baseless. 19-Arid-2254
1. The quality of amino acids fed to the ruminants have no significance as the injested protein is converted in to microbial protein which donot depend on the quality of amino acids. 2. Urea should be fed at the rate of 1% to total DM to avoid urea toxicity 19-ARID-2257
1) ruminants tissue can synthesize dispensable AA AND cannot synthesize indispensable AA-essential AA must be provided from digestive tract. 19-arid-2312
In Ruminant animals they can survive by recycling the Nitrogen as a source of Urea into the rumen and complete the Nitrogen demand in case of low dietary protein . Arslan Ahmad 19-Arid-2273 Evening Section A
Synthesis of proteins is done in four parts that are the activation of individual amino acids, initiation of peptide chain formation, elongation and chain termination. 19Arid2288
ruminants tissues can synthesize non essential amino acids but cannot synthesize indespensible amino acids and must be provided through feed. As amino acids are not stored so constant supply is required. 19-Arid-2304
The metabolic pathway at tissue level are same in both ruminants and non-ruminants. in case of ruminant animals the tissue are able to synthesize dispensible amino acid but they cannot synthesize indispensable amino acid. 19-arid-2183
1- Ruminants & non- ruminants have similar metabolic pathway at tissue level for protein (nitrogen ) utilization. 2- Both ruminants & non-ruminants can synthesize dispensible AA and cannot synthesize indispensible AA and must be provided through diet. 19-ARID-2287.
Ruminant vs non ruminants Similar metabolic pathway at tissue level Ruminants tissue can synthesize dispensable AA Tissue protein constantly undergoing turnover AAnot stored constant supply of AA required Ruminants have microbial population microbial protein synthesis 19_Arid_2184
We are much careful in formulating the diet for monogastric animals, but for ruminants diet we don't concern about the type of amino acids in their diet. 19-arid-2272
✓Amino acids are not stored, so they must be available either through catabolism or through diet in both ruminants and non-ruminanats. ✓High urea level in feed can cause urea toxicity, so its level in feed should be monitored. 19-Arid-2187
Both ruminants and non ruminants can synthesize dispensable amino acids (non essential AA) but can't synthesize indispensable amino acids (essential AA), so essential AA must be provided from feed.
In ruminant there is microbial population that is responsible for the synthesis of proteins. Due to synthesis of these microbial proteins the profile of the amino acid in small intestine is different from diet.
19-Arid-2290
Evening-A
The microorganisms is involve in protein synthesis in rumen
19 arid 2227
Ruminant have a large microbial population that are capbale of synthesizing microbial protein which in turn enables ruminants for efficient use of NP etc.
19-arid-2208
In rumen, microbial species are used to synthesize microbial proteins.
19-Arid-2261
Ruminant have a large microbial population that are capbale of synthesizing microbial protein which in turn enables ruminants for efficient use of NP etc.
19-Arid-2316
Type of feed does not affect the amino acid composition of bacteria and protozoa leaving the rumen.
19-Arid-2253
1- Ruminants can be productive without a source of dietery true proteins.
2- The type of feed does not the composition of amino acids of bacteria and protozoa leaving rumen.
19-arid-2197
1-)Ruminants can synthesize dispensable Amino Acids. While non ruminants can not.
2-)Partial aspects of Urea feeding in ruminants is that Urea=281%CP equivalent where N=45% of Urea(45%×6.25=281%CP).
19-Arid-4425
ruminants tissue can synthesize dispensable amino acids
amino acids cannot be synthesized and they are supplied as they required
19-arid-2203
Jahangir Iqbal
section A
Ruminants and non ruminants have similar metabolic pathways at tissue level for example metabolism of amino acids at tissue level is brought by same pathways both in ruminants and non ruminants. Both can synthesize dispensable/non essential amino acids and both can't synthesize indispensable/essential amino acids.
Ruminants have diversified microbial population in rumen which are capable of synthesizing microbial proteins. With the help of these microbes ruminants can upgrade low quality dietary proteins and down grade high quality dietary proteins.
19-Arid-2201.
Ruminant have a large microbial population that are capbale of synthesizing microbial protein which in turn enables ruminants for efficient use of NP
Amino acids are not stored so they should be constantly supplied and the urea supply should be less for slow utilisation.
19-Arid-2223
Microbial population in ruminants enables them to use NPN effectively.
In Dairy cows, 2mg NH3/ 100ml is toxic
19-arid-2206
Ruminants have microbes in the rumen which enable them to synthesize the dietary proteins.
Urea should be fed at the rate of 1% to total DM to avoid urea toxicity
19-arid-2217 (morning-A)
In ruminates and non ruminates there is constant tissue protein turnover means there is catabolism and synthesis of protein.
19-ARID-2251
Ruminants and non Ruminants have similar metabolic pathways.
Tissue proteins constantly undergoing turnover.
Amino acids are not stored, constant supply of amino acid is required.
19-ARID-2205
1. In dairy cows the upper limit for urea feeding is 1% dry matter diet.
2. If amino acids are in excess as compared to the body requirements, its is oxidized.
19-arid-2240
Ruminants are capable of up-grading low quality dietary proteins and at the same time they down-grades high quality dietary proteins.
19-arid-2252
As the rumminants have ability to produce microbial protein so there A.A profile is different in small intestine than that of monogastric animals.
If the Amino acids are in excess than body need so these undergoes oxidation and synthesis protein.
19-arid-2284
Type of feed in the rumen does not effects the composition of ammino acid alongwith the bacteria and protozoa leaving the rumen.
19-arid-2211
Type of feed does not affect amino acid composition of bacteria and protozoa leaving rumen.
19-Arid-2234......
1) Microbial population in ruminants enables them to use NPN effectively.
2) In Dairy cows, 2mg NH3/ 100ml is toxic
19-arid-2200
1) Ruminants have the a ability to convert low quality protein to high quality protein and vice versa, so for this reason amino acid profile differs in diet and in small intestine.
19-ARID-2248
In ruminating animals, constantly turn over of protein occur.
Microorganisms are involved in the synthesis of proteins
19-arid-2185
Dietary protein for ruminants includes nitrogen (N) occurring in true protein and non-protein. In the rumen, the true protein is degraded into amino acid (AA) and ammonia and then utilized by ruminal microorganisms to synthesize microbial protein (MCP).
19-Arid -2204 (A)
In ruminants, there is presence of microbe population that help in production of microbial proteins and ruminants can survive on low quantity of dietary proteins by recycling nitrogen back to rumen.
19-Arid-2315
1-Amino acid profile is different in small intestine of ruminants when compared to monogastrics.
2-Oxidation and protein synthesis ate the upshots when amino acids increase in the body of Animal.
19-ARID-2283
Ruminants can synthesize essential amino acids in addition to non essential amino acids. Moreover ruminants can also nitrogen contents from NPN compounds but monogastric species lack this ability.
Amino acid profile varies in small intestine of ruminants because they have ability to upgrade low quality protein or downgrade high quality protein.
19-Arid-2236(A)
In ruminants nutrition..generally not concerned with amino acid composition of dietary protein
19-ARID-2285
Ruminanys have edge point as they have microbial population and these microbes synthesize protein.
19-Arid-2229
1. Ruminants have microbial protein synthesis, which help in NPN utilization efficiently.
2. Ruminants can convert low quality dietery proteins into high quality by rumen fermentation.
19-ARID-2264
Ruminants have microbial protien synthesis so it helps them to enable to use NPN efficiently.
19-arid-2195
Types of feed doesn't effect amino acid components of bacteria and protoza leaving rumen
19-Arid-2271
Weston and Hogan experimented to know the wool growth of two sheep fed on different diets. One sheep is fed on lucerne, corn etc. (having CP value of 18%) while other sheep is fed on wheatened hay and corn (having CP content 8%). The two sheep show identical wool growth. Experiment further showed that sheep that was fed on a diet of higher CP content has faced a net loss in amino acid-nitrogen (gm/day) that entered in small intestine as compared to the nitrogen intake from diet. On the other hand, sheep having lower nitrogen intake from diet showed net gain in nitrogen that entered into small intestine. From here, we can conclude that ruminant animals are able to convert low quality feed into good quality while feed with high protein content face downfall.
19-Arid-2224
1- Ruminants have microbial population that involves in microbial protein synthesis.
2- Ruminants can be productive without the source of dietary true protein.
19-Arid-2262
Ruminant animals have microbial species in their rumen which anable them to synthesis of microbial protein
19-Arid-2294
As in nonruminants these essential amino acids must be supplied either from the digestive tract or from the catabolism of body proteins. Despite similarities in amino acid meta- bolism at the tissue level, wide differences occur between ruminants and nonruminants in tile fate of ingested protein.
19-ARID-2260
19 Arid 2194
Danish ali
ruminants have microbial polulation and the microbial protein synthesis
ruminats can be profuctive without the source of dietary protein
N utilization :ruminants acn be productive even without dietry true protein
Urea acn acuse toxicity in them . So we give 1% urea in relation to total diet
19-arid-2276
Evening b
Ruminants have microbial population - microbial protein synthesis
AA profile at S. I different from diet
Enables ruminants to use NPN efficient.
19-arid-2297
Amino acids are not stored so they should be constantly supplied and the urea supply should be less for slow utilisation.
19 Arid 2214
1- Amino acids cannot be stored if there is high amount of AA in diet it may oxidize or it is converted into protein that is deposited in tissue.
2- During feeding we should kept in mind that ammonia high level may cause toxicity. 2mg ammonia per 100ml plasma is toxic.
19-arid-2182
Ruminants have the tendency to turn out the low quality feed into high quality feed along with its good protein content as well..
19-ARID-2279
Ruminant tissues can synthesize dispensable AA. But it cannot synthesize indispensable AA-ESsential AA must be provided from digestive tract.
TISSUE proteins constantly undergoing turnover.
19-Arid_2209
1.In ruminant nutrition generally not concerned with AA composition of dietary protein.
2.Animal can survive on low quantity of dietary protein by recycling nitrogen back to rumen.
19-Arid-2269
--Ruminants have microbes in the rumen which enable them to synthesize the dietary proteins.
--In Ruminants, type of feed not affect the dietary proteins production, but in case of monogastric species, the type of feed with specific protein concentration matters alot.
19-ARID-2309
1. In ruminants nutrition, generally not considered with AA composition of dietary protein.
2. Ruminants can be productive without a source of dietary true proteins.
19-arid-2219
1.In both ruminants and non-ruminants, the constant supply of amino acids is required as there is no storage or amino acids.
2. The 2mg of ammonia in 100ml plasma is toxic and precautionaty measures are taken during feeding urea to animal.
19-Arid-2196
.In Ruminants nutrition there is no concern with Amino acid composition of dietary protein. As ruminants can be productive without source of dietary protein.
Ruminants can synthesize microbial proteins while the non ruminants can not synthesize
19-Arid-2181
#1) Both ruminants and non-ruminants are not able to store amino acids that's why there is a need for regular intake of essential amino acids in the diet and synthesis of the non-essential amino acids from various chemical reactions.
#2) If the Urea is considered as the source of nitrogen that is it contains 45 % nitrogen, this percentage can theoretically produce 281% crude protein which is hard to be practically accomplished.
19-arid-2246
Ruminants have microbial species in the rumen so they are able to produce microbial proteins.
Ruminants are able to upgrade the low quality dietary protein and downgrade the high quality dietary protein in ruminal cavity.
19-arid-2301
Dietary proteins are obtained by the microbes present in rumen
19-Arid-2278
1_ in ruminants dietary protein are synthesised by microbes in rumen.
2_ they can be productive without source of true dietary protein
19_ARID_2212
Ruminants have microbes in the rumen which enable them to synthesize the dietary proteins.
(19-ARID-2265)
The both ruminants and non ruminants can synthesize indespensible proteins but both can't synthesize essential proteins which have to be given in diet. The ruminants can synthesize microbial protein while the non ruminants can not.
19-arid-4423
1. In ruminant and non ruminant animal,the metabolic pathways followed by protein end products,synthesis of different amino acids and synthesis of proteins at tissue level are similar.
2. The ruminant animals are capable of upgrading a low quality dietry protein and at the same time they downgrade high quality dietry proteins.
19-Arid-2186
Ruminants require continuous supply of amino acids .
2in ruminants amino acids are continuously undergoing turnover .
16-arid-2813
1) AA composition of bacteria is not affected by type of feed.
2) ruminants cannot synthesize amino acids so require amino acids in diet regularly.
19-arid-2192
Microbial population present in ruminants enables them to use NPN efficiently. Ruminants can be productive without a source of dietary true protein...
19-Arid-2267
Metabolic pathways at tissue level are same in both types of animals ruminants and non ruminants
19-arid-2289
The metabolic pathways followed by protein and products and production of different amino acids and proteins at tissue level is similar in ruminants and non ruminants.
Synthesis of non essential or dispensable amino acids is similar in both ruminants and non ruminants but both cannot synthesize essential or non dispensable amino acids so they should be present in diet.
19-Arid-2263
1. Ruminants require constant supply of amino acids.
2. In ruminants proteins are constantly undergoing turn over.
19-ARID-2190
ruminants amino acid profile varies in the small intestine as they are able to upgrade low-quality protein or downgrade high-quality protein.
the ruminants can synthesize microbial protein while the non-ruminants can't. '
19-arid-2198
No. Of essential amino acids in Ruminants is zero
we talked about dietary essentials
Ruminants can't synthesize indespensible /essential amino acids and must be provided by the feed outside.
19-arid-2268
Ruminants can be productive without a source of dietary true protein.
In ruminants nutrition generally not concerned with amino acids composition of dietary protein.
M. Ramzan 19-ARID-2307
Constant turn over of protein occur in ruminating animal.
16-Arid-2839
If Amino Acids are in excess amount of the body diet , they are oxidized. if they make protein , it wil store in tissues in protein form rather than amino acid form .
19-Arid-2216
ruminants have microbial population
ruminant tissues can synthesize dispensable amino acids
19-arid-2202
Ruminant and non ruminants have same metabolic pathway.
Tissue protein constantly undergoing turnover.
19-Arid-2237
Ruminant tissue can synthesize dispensible amino acid.
Amino cannot be stored a continous supply of amino acid is required.
19-ARID-2245
✓In ruminant animals, the composition of injested dietry proteins is not of concern. The high quality proteins are down graded while low quality proteins are upgraded
✓Theoretically urea is calculated to have 281% crude protein equivalence but experimentally this theory is baseless.
19-Arid-2254
1. The quality of amino acids fed to the ruminants have no significance as the injested protein is converted in to microbial protein which donot depend on the quality of amino acids.
2. Urea should be fed at the rate of 1% to total DM to avoid urea toxicity
19-ARID-2257
1) ruminants tissue can synthesize dispensable AA AND cannot synthesize indispensable AA-essential AA must be provided from digestive tract.
19-arid-2312
In Ruminant animals they can survive by recycling the Nitrogen as a source of Urea into the rumen and complete the Nitrogen demand in case of low dietary protein .
Arslan Ahmad
19-Arid-2273
Evening Section A
Synthesis of proteins is done in four parts that are the activation of individual amino acids, initiation of peptide chain formation, elongation and chain termination.
19Arid2288
ruminants tissues can synthesize non essential amino acids but cannot synthesize indespensible amino acids and must be provided through feed. As amino acids are not stored so constant supply is required.
19-Arid-2304
Ruminant tissue can synthesize dispensable AA.
Tissue proteins constantly undergoing turnover.
19 -Arid- 2318
3rd evening
Section B
Ruminant have microbial population...upgrade low quality dietery protein and down grade high protein dietery protein..
19-arid-2280
Without the source of dietry true protein ruminants can be productive.
Types of feed does not effect AA composition of bacteria.
19 arid 2241
The metabolic pathway at tissue level are same in both ruminants and non-ruminants.
in case of ruminant animals the tissue are able to synthesize dispensible amino acid but they cannot synthesize indispensable amino acid.
19-arid-2183
1- Ruminants & non- ruminants have similar metabolic pathway at tissue level for protein (nitrogen ) utilization.
2- Both ruminants & non-ruminants can synthesize dispensible AA and cannot synthesize indispensible AA and must be provided through diet.
19-ARID-2287.
Ruminants can be productive without a source of dietary true proteins.
19-arid-2320
Ruminant vs non ruminants
Similar metabolic pathway at tissue level
Ruminants tissue can synthesize dispensable AA
Tissue protein constantly undergoing turnover
AAnot stored constant supply of AA required
Ruminants have microbial population microbial protein synthesis
19_Arid_2184
We are much careful in formulating the diet for monogastric animals, but for ruminants diet we don't concern about the type of amino acids in their diet.
19-arid-2272
Type of feed does not effect amino acid composite of bacteria and pritozoa leaving rumen
19-arid2293
Abuzar
Ruminants are able to convert low quality feed into good quality feed with high protein content.
M.Shahbaz 19-Arid-2311
DVM Eve section A
Ruminants and non-ruminants have similar metabolic pathways at tissue level.
Hamza Nazir
19-Arid-2282
3rd Semester (Evening)
DVM
✓Amino acids are not stored, so they must be available either through catabolism or through diet in both ruminants and non-ruminanats.
✓High urea level in feed can cause urea toxicity, so its level in feed should be monitored.
19-Arid-2187
19-arid-2247
In rumen, microbial species are used to synthesize microbial proteins.
19-Arid-2261