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�ݺ�ߣshows by User: buhroozafar / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: buhroozafar / Sun, 06 Nov 2016 14:50:28 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: buhroozafar Molecular Marker Techniques /slideshow/molecular-marker-techniques/68259487 molecularmarker-niceppt-161106145028
Differences in DNA occur within genes, the differences have the potential to affect the function of the gene and hence the phenotype of the individual. Genetic markers which have been used a lot in the past include blood groups and polymorphic enzymes. We have relatively few such markers, but this has been overcome with the advent of new types of markers. However, most molecular markers are not associated with a visible phenotype.]]>
Differences in DNA occur within genes, the differences have the potential to affect the function of the gene and hence the phenotype of the individual. Genetic markers which have been used a lot in the past include blood groups and polymorphic enzymes. We have relatively few such markers, but this has been overcome with the advent of new types of markers. However, most molecular markers are not associated with a visible phenotype.]]> Sun, 06 Nov 2016 14:50:28 GMT /slideshow/molecular-marker-techniques/68259487 buhroozafar@slideshare.net(buhroozafar) Molecular Marker Techniques buhroozafar Differences in DNA occur within genes, the differences have the potential to affect the function of the gene and hence the phenotype of the individual. Genetic markers which have been used a lot in the past include blood groups and polymorphic enzymes. We have relatively few such markers, but this has been overcome with the advent of new types of markers. However, most molecular markers are not associated with a visible phenotype. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/molecularmarker-niceppt-161106145028-thumbnail.jpg?width=120&height=120&fit=bounds" /> Differences in DNA occur within genes, the differences have the potential to affect the function of the gene and hence the phenotype of the individual. Genetic markers which have been used a lot in the past include blood groups and polymorphic enzymes. We have relatively few such markers, but this has been overcome with the advent of new types of markers. However, most molecular markers are not associated with a visible phenotype.

Molecular Marker Techniques from RESEARCH ASSOCIATE - SKUAST

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0 Lecture 1 basic molecular biology /slideshow/lecture-1-basic-molecular-biology/68259276 lecture1basicmolecularbiology-161106143914
Molecular biology is the study of biology at a molecular level. In broad sense, the study of gene structure and functions at the molecular level to understand the molecular basis of hereditary, genetic variation, and the expression patterns of genes.The field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry.]]>
Molecular biology is the study of biology at a molecular level. In broad sense, the study of gene structure and functions at the molecular level to understand the molecular basis of hereditary, genetic variation, and the expression patterns of genes.The field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry.]]> Sun, 06 Nov 2016 14:39:14 GMT /slideshow/lecture-1-basic-molecular-biology/68259276 buhroozafar@slideshare.net(buhroozafar) Lecture 1 basic molecular biology buhroozafar Molecular biology is the study of biology at a molecular level. In broad sense, the study of gene structure and functions at the molecular level to understand the molecular basis of hereditary, genetic variation, and the expression patterns of genes.The field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/lecture1basicmolecularbiology-161106143914-thumbnail.jpg?width=120&height=120&fit=bounds" /> Molecular biology is the study of biology at a molecular level. In broad sense, the study of gene structure and functions at the molecular level to understand the molecular basis of hereditary, genetic variation, and the expression patterns of genes.The field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry.

Lecture 1 basic molecular biology from RESEARCH ASSOCIATE - SKUAST

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0 STRUCTURE AND ORGANIZATION OF CHROMATIN /slideshow/structure-and-organization-of-chromatin/68259011 writeup-chromatin-1-161106142824
Chromatin is the complex combination of DNA and proteins that makes up chromosomes. It can be made visible by staining with specific techniques and stain (thus the name chromatin which literally means colored material). The major proteins involved in chromatin are histone proteins; although many other chromosomal proteins have prominent roles too. The functions of chromatin is to package DNA into smaller volume to fit in the cell, to strengthen the DNA to allow mitosis and meiosis and to serve as a mechanism to control gene expression and DNA replication. ]]>
Chromatin is the complex combination of DNA and proteins that makes up chromosomes. It can be made visible by staining with specific techniques and stain (thus the name chromatin which literally means colored material). The major proteins involved in chromatin are histone proteins; although many other chromosomal proteins have prominent roles too. The functions of chromatin is to package DNA into smaller volume to fit in the cell, to strengthen the DNA to allow mitosis and meiosis and to serve as a mechanism to control gene expression and DNA replication. ]]> Sun, 06 Nov 2016 14:28:24 GMT /slideshow/structure-and-organization-of-chromatin/68259011 buhroozafar@slideshare.net(buhroozafar) STRUCTURE AND ORGANIZATION OF CHROMATIN buhroozafar Chromatin is the complex combination of DNA and proteins that makes up chromosomes. It can be made visible by staining with specific techniques and stain (thus the name chromatin which literally means colored material). The major proteins involved in chromatin are histone proteins; although many other chromosomal proteins have prominent roles too. The functions of chromatin is to package DNA into smaller volume to fit in the cell, to strengthen the DNA to allow mitosis and meiosis and to serve as a mechanism to control gene expression and DNA replication. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/writeup-chromatin-1-161106142824-thumbnail.jpg?width=120&height=120&fit=bounds" /> Chromatin is the complex combination of DNA and proteins that makes up chromosomes. It can be made visible by staining with specific techniques and stain (thus the name chromatin which literally means colored material). The major proteins involved in chromatin are histone proteins; although many other chromosomal proteins have prominent roles too. The functions of chromatin is to package DNA into smaller volume to fit in the cell, to strengthen the DNA to allow mitosis and meiosis and to serve as a mechanism to control gene expression and DNA replication.

STRUCTURE AND ORGANIZATION OF CHROMATIN from RESEARCH ASSOCIATE - SKUAST

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0 Disease Resistance in Silkworm Bombyx mori L. /slideshow/disease-resistance-in-silkworm-bombyx-mori-l/68233794 d-161105103051
Silkworm has developed an efficient host defense mechanism against invading microorganisms through their immunological and genetic resistance. Immunological responses in silkworm B.mori are provided by circulating haemocytes which play an important role in innate immune mechanism such as phagocytosis, cellular encapsulation, phenoloxidase cascade and synthesis of antimicrobial proteins which are effectively engaged in defense reactions against invading pathogens . Antimicrobial proteins are the armament that insects have developed to fight off the pathogens. Several such antimicrobial proteins have been reported from silkworm B.mori like cecropins, attacins, lebocin, moricin, gloverins, lysozyme, defensins and hemolin. Insects in general are observed to respond differentially to infection by pathogens. Such differences are genetically determined and have been extensively studied in silkworm to develop resistant breeds.]]>
Silkworm has developed an efficient host defense mechanism against invading microorganisms through their immunological and genetic resistance. Immunological responses in silkworm B.mori are provided by circulating haemocytes which play an important role in innate immune mechanism such as phagocytosis, cellular encapsulation, phenoloxidase cascade and synthesis of antimicrobial proteins which are effectively engaged in defense reactions against invading pathogens . Antimicrobial proteins are the armament that insects have developed to fight off the pathogens. Several such antimicrobial proteins have been reported from silkworm B.mori like cecropins, attacins, lebocin, moricin, gloverins, lysozyme, defensins and hemolin. Insects in general are observed to respond differentially to infection by pathogens. Such differences are genetically determined and have been extensively studied in silkworm to develop resistant breeds.]]> Sat, 05 Nov 2016 10:30:51 GMT /slideshow/disease-resistance-in-silkworm-bombyx-mori-l/68233794 buhroozafar@slideshare.net(buhroozafar) Disease Resistance in Silkworm Bombyx mori L. buhroozafar Silkworm has developed an efficient host defense mechanism against invading microorganisms through their immunological and genetic resistance. Immunological responses in silkworm B.mori are provided by circulating haemocytes which play an important role in innate immune mechanism such as phagocytosis, cellular encapsulation, phenoloxidase cascade and synthesis of antimicrobial proteins which are effectively engaged in defense reactions against invading pathogens . Antimicrobial proteins are the armament that insects have developed to fight off the pathogens. Several such antimicrobial proteins have been reported from silkworm B.mori like cecropins, attacins, lebocin, moricin, gloverins, lysozyme, defensins and hemolin. Insects in general are observed to respond differentially to infection by pathogens. Such differences are genetically determined and have been extensively studied in silkworm to develop resistant breeds. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/d-161105103051-thumbnail.jpg?width=120&height=120&fit=bounds" /> Silkworm has developed an efficient host defense mechanism against invading microorganisms through their immunological and genetic resistance. Immunological responses in silkworm B.mori are provided by circulating haemocytes which play an important role in innate immune mechanism such as phagocytosis, cellular encapsulation, phenoloxidase cascade and synthesis of antimicrobial proteins which are effectively engaged in defense reactions against invading pathogens . Antimicrobial proteins are the armament that insects have developed to fight off the pathogens. Several such antimicrobial proteins have been reported from silkworm B.mori like cecropins, attacins, lebocin, moricin, gloverins, lysozyme, defensins and hemolin. Insects in general are observed to respond differentially to infection by pathogens. Such differences are genetically determined and have been extensively studied in silkworm to develop resistant breeds.

Disease Resistance in Silkworm Bombyx mori L. from RESEARCH ASSOCIATE - SKUAST

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0 BIOFUELS AND THEIR FUTURE PERESPECTIVES /slideshow/biofuel-ppt/31237564 biofuelppt-140215044602-phpapp01
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]]> Sat, 15 Feb 2014 04:46:02 GMT /slideshow/biofuel-ppt/31237564 buhroozafar@slideshare.net(buhroozafar) BIOFUELS AND THEIR FUTURE PERESPECTIVES buhroozafar <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/biofuelppt-140215044602-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" />

BIOFUELS AND THEIR FUTURE PERESPECTIVES from RESEARCH ASSOCIATE - SKUAST

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0 BASICS OF MOLECULAR BIOLOGY /slideshow/basics-of-molecular-biology/31237545 basicsofmolecularbiology-140215044517-phpapp02
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]]> Sat, 15 Feb 2014 04:45:17 GMT /slideshow/basics-of-molecular-biology/31237545 buhroozafar@slideshare.net(buhroozafar) BASICS OF MOLECULAR BIOLOGY buhroozafar <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/basicsofmolecularbiology-140215044517-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" />

BASICS OF MOLECULAR BIOLOGY from RESEARCH ASSOCIATE - SKUAST

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0 GENOME ORGANISATION IN EUKARYOTES /slideshow/biotech-lecture-ppt/31236730 biotechlecture-ppt-140215035716-phpapp02
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]]> Sat, 15 Feb 2014 03:57:16 GMT /slideshow/biotech-lecture-ppt/31236730 buhroozafar@slideshare.net(buhroozafar) GENOME ORGANISATION IN EUKARYOTES buhroozafar <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/biotechlecture-ppt-140215035716-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" />

GENOME ORGANISATION IN EUKARYOTES from RESEARCH ASSOCIATE - SKUAST

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0 https://cdn.slidesharecdn.com/profile-photo-buhroozafar-48x48.jpg?cb=1731438430 https://cdn.slidesharecdn.com/ss_thumbnails/molecularmarker-niceppt-161106145028-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/molecular-marker-techniques/68259487 Molecular Marker Techn... https://cdn.slidesharecdn.com/ss_thumbnails/lecture1basicmolecularbiology-161106143914-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/lecture-1-basic-molecular-biology/68259276 Lecture 1 basic molecu... https://cdn.slidesharecdn.com/ss_thumbnails/writeup-chromatin-1-161106142824-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/structure-and-organization-of-chromatin/68259011 STRUCTURE AND ORGANIZA...