�ݺ�ߣshows by User: WaniAHAD

�ݺ�ߣshows by User: WaniAHAD / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: WaniAHAD / Thu, 20 Jul 2017 07:07:34 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: WaniAHAD Exon 3 /slideshow/exon-3/78074581 exon3-170720070734
Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 3 and partial cds]]>
Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 3 and partial cds]]> Thu, 20 Jul 2017 07:07:34 GMT /slideshow/exon-3/78074581 WaniAHAD@slideshare.net(WaniAHAD) Exon 3 WaniAHAD Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 3 and partial cds <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/exon3-170720070734-thumbnail.jpg?width=120&height=120&fit=bounds" /> Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 3 and partial cds

Exon 3 from Wani Ahad

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0 Exon 2 /WaniAHAD/exon-2 exon2-170720070706
Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 2 and partial cds]]>
Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 2 and partial cds]]> Thu, 20 Jul 2017 07:07:06 GMT /WaniAHAD/exon-2 WaniAHAD@slideshare.net(WaniAHAD) Exon 2 WaniAHAD Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 2 and partial cds <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/exon2-170720070706-thumbnail.jpg?width=120&height=120&fit=bounds" /> Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 2 and partial cds

Exon 2 from Wani Ahad

]]> 37 2 https://cdn.slidesharecdn.com/ss_thumbnails/exon2-170720070706-thumbnail.jpg?width=120&height=120&fit=bounds document 000000 http://activitystrea.ms/schema/1.0/post

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0 Exon 1 /slideshow/exon-1/78074536 exon1-170720070616
Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 1 and partial cds]]>
Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 1 and partial cds]]> Thu, 20 Jul 2017 07:06:16 GMT /slideshow/exon-1/78074536 WaniAHAD@slideshare.net(WaniAHAD) Exon 1 WaniAHAD Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 1 and partial cds <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/exon1-170720070616-thumbnail.jpg?width=120&height=120&fit=bounds" /> Capra hircus breed Bakerwal myostatin (MSTN) gene, exon 1 and partial cds

Exon 1 from Wani Ahad

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0 Sequence Characterization of Coding Regions of the Myostatin Gene (GDF8) from Bakerwal Goats (Capra hircus) and Comparison with the Sheep (Ovis aries) Sequence /slideshow/sequence-characterization-of-coding-regions-of-the-myostatin-gene-gdf8-from-bakerwal-goats-capra-hircus-and-comparison-with-the-sheep-ovis-aries-sequence-78074482/78074482 paper-170720070419
The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, weare able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences.]]>
The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, weare able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences.]]> Thu, 20 Jul 2017 07:04:19 GMT /slideshow/sequence-characterization-of-coding-regions-of-the-myostatin-gene-gdf8-from-bakerwal-goats-capra-hircus-and-comparison-with-the-sheep-ovis-aries-sequence-78074482/78074482 WaniAHAD@slideshare.net(WaniAHAD) Sequence Characterization of Coding Regions of the Myostatin Gene (GDF8) from Bakerwal Goats (Capra hircus) and Comparison with the Sheep (Ovis aries) Sequence WaniAHAD The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, weare able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/paper-170720070419-thumbnail.jpg?width=120&height=120&fit=bounds" /> The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, weare able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences.

Sequence Characterization of Coding Regions of the Myostatin Gene (GDF8) from Bakerwal Goats (Capra hircus) and Comparison with the Sheep (Ovis aries) Sequence from Wani Ahad

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0 Sequence Characterization of Coding Regions of the Myostatin Gene (GDF8) from Bakerwal Goats (Capra hircus) and Comparison with the Sheep (Ovis aries) Sequence /slideshow/sequence-characterization-of-coding-regions-of-the-myostatin-gene-gdf8-from-bakerwal-goats-capra-hircus-and-comparison-with-the-sheep-ovis-aries-sequence/76010554 paper-170516071313
The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, we are able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences.]]>
The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, we are able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences.]]> Tue, 16 May 2017 07:13:12 GMT /slideshow/sequence-characterization-of-coding-regions-of-the-myostatin-gene-gdf8-from-bakerwal-goats-capra-hircus-and-comparison-with-the-sheep-ovis-aries-sequence/76010554 WaniAHAD@slideshare.net(WaniAHAD) Sequence Characterization of Coding Regions of the Myostatin Gene (GDF8) from Bakerwal Goats (Capra hircus) and Comparison with the Sheep (Ovis aries) Sequence WaniAHAD The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, we are able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/paper-170516071313-thumbnail.jpg?width=120&height=120&fit=bounds" /> The Bakerwal breed of goat in Kashmir valley is a good meat purpose breed of goat. That attains an appreciable body weight under a low input production system. As these goats are mainly reared by Gujjar and Bakarwal tribes of the J & K state, so they usually are fed with the weeds, herbs, shrubs and grasses of pastures that will otherwise go waste. These goats constitute the main livestock wealth. With the good productive and reproductive potential, it makes these animals an important animal protein source for developing countries like India. The myostatin gene (GDF8) is important in the physiology of stock animals because its product produces a direct effect on muscle development and consequently also on meat production. The myostatin sequence is known in several mammalian species and shows a high degree of amino acid sequence conservation, although several alterations in the intron and exon regions have been identified. The objective of our work is to characterize the myostatin coding regions using gene sequencing and polymerase chain reaction methods of Capra hircus (Bakerwal breed) and to compare them with the Ovis aries and other livestock species of animal, looking for variations in nucleotide and protein sequences. As mutations in the myostatin gene can inactivate its expression and result in a non-functional protein, which leads to increase in muscle growth in many species. In this way, we are able to identify 3 alterations on the presumed myostatin protein sequence as compared to non double-muscled ovine sequences.

Sequence Characterization of Coding Regions of the Myostatin Gene (GDF8) from Bakerwal Goats (Capra hircus) and Comparison with the Sheep (Ovis aries) Sequence from Wani Ahad

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0 Myostatin (MSTN) and its Applications in Animal Breeding /slideshow/myostatin-mstn-and-its-applications-in-animal-breeding/57070371 thesisseminar-160114195950
Characterising the variation of MSTN across livestock animals would be fundamental in identifying elite animals possessing the double muscling trait and bringing them in breeding policy for improved meat production]]>
Characterising the variation of MSTN across livestock animals would be fundamental in identifying elite animals possessing the double muscling trait and bringing them in breeding policy for improved meat production]]> Thu, 14 Jan 2016 19:59:50 GMT /slideshow/myostatin-mstn-and-its-applications-in-animal-breeding/57070371 WaniAHAD@slideshare.net(WaniAHAD) Myostatin (MSTN) and its Applications in Animal Breeding WaniAHAD Characterising the variation of MSTN across livestock animals would be fundamental in identifying elite animals possessing the double muscling trait and bringing them in breeding policy for improved meat production <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/thesisseminar-160114195950-thumbnail.jpg?width=120&height=120&fit=bounds" /> Characterising the variation of MSTN across livestock animals would be fundamental in identifying elite animals possessing the double muscling trait and bringing them in breeding policy for improved meat production

Myostatin (MSTN) and its Applications in Animal Breeding from Wani Ahad

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0 MOLECULAR ASPECTS OF HYPOXIAL STRESS IN LIVESTOCK ANIMALS /slideshow/molecular-aspects-of-hypoxial-stress-in-livestock-animals/56686173 creditseminar-upload-160105090027
Despite recent rapid advances in understanding the molecular mechanisms of the HIF pathways in response to hypoxia, many important questions remain to be answered? Unraveling such questions should provide new insights into cellular adaptation to hypoxia and aid to discover new therapeutic approaches to reduce animal diseases. Genetic selection for breeds of animals resistant to the extreme climatic conditions. Optimisation of gradual shift of animals from one altitude to another. ]]>
Despite recent rapid advances in understanding the molecular mechanisms of the HIF pathways in response to hypoxia, many important questions remain to be answered? Unraveling such questions should provide new insights into cellular adaptation to hypoxia and aid to discover new therapeutic approaches to reduce animal diseases. Genetic selection for breeds of animals resistant to the extreme climatic conditions. Optimisation of gradual shift of animals from one altitude to another. ]]> Tue, 05 Jan 2016 09:00:27 GMT /slideshow/molecular-aspects-of-hypoxial-stress-in-livestock-animals/56686173 WaniAHAD@slideshare.net(WaniAHAD) MOLECULAR ASPECTS OF HYPOXIAL STRESS IN LIVESTOCK ANIMALS WaniAHAD Despite recent rapid advances in understanding the molecular mechanisms of the HIF pathways in response to hypoxia, many important questions remain to be answered? Unraveling such questions should provide new insights into cellular adaptation to hypoxia and aid to discover new therapeutic approaches to reduce animal diseases. Genetic selection for breeds of animals resistant to the extreme climatic conditions. Optimisation of gradual shift of animals from one altitude to another. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/creditseminar-upload-160105090027-thumbnail.jpg?width=120&height=120&fit=bounds" /> Despite recent rapid advances in understanding the molecular mechanisms of the HIF pathways in response to hypoxia, many important questions remain to be answered? Unraveling such questions should provide new insights into cellular adaptation to hypoxia and aid to discover new therapeutic approaches to reduce animal diseases. Genetic selection for breeds of animals resistant to the extreme climatic conditions. Optimisation of gradual shift of animals from one altitude to another.

MOLECULAR ASPECTS OF HYPOXIAL STRESS IN LIVESTOCK ANIMALS from Wani Ahad

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0 https://cdn.slidesharecdn.com/profile-photo-WaniAHAD-48x48.jpg?cb=1707386948 https://cdn.slidesharecdn.com/ss_thumbnails/exon3-170720070734-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/exon-3/78074581 Exon 3 https://cdn.slidesharecdn.com/ss_thumbnails/exon2-170720070706-thumbnail.jpg?width=320&height=320&fit=bounds WaniAHAD/exon-2 Exon 2 https://cdn.slidesharecdn.com/ss_thumbnails/exon1-170720070616-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/exon-1/78074536 Exon 1