�ݺ�ߣshows by User: sangwansunita

�ݺ�ߣshows by User: sangwansunita / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: sangwansunita / Sat, 21 Sep 2024 13:25:50 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: sangwansunita Tissue System - Epidermis, ground tissue, vascular tissue /slideshow/tissue-system-epidermis-ground-tissue-vascular-tissue/271935002 8-240921132551-fb91c0d2
A group of tissues performing a similar function, irrespective of its position in the plant body, is called a tissue system. In 1875, German Scientist Julius von Sachs recognized three tissue systems in the plants. They are: Epidermal tissue system (derived from protoderm) Ground tissue system (derived from ground meristem) Vascular tissue system (derived from procambium) ]]>
A group of tissues performing a similar function, irrespective of its position in the plant body, is called a tissue system. In 1875, German Scientist Julius von Sachs recognized three tissue systems in the plants. They are: Epidermal tissue system (derived from protoderm) Ground tissue system (derived from ground meristem) Vascular tissue system (derived from procambium) ]]> Sat, 21 Sep 2024 13:25:50 GMT /slideshow/tissue-system-epidermis-ground-tissue-vascular-tissue/271935002 sangwansunita@slideshare.net(sangwansunita) Tissue System - Epidermis, ground tissue, vascular tissue sangwansunita A group of tissues performing a similar function, irrespective of its position in the plant body, is called a tissue system. In 1875, German Scientist Julius von Sachs recognized three tissue systems in the plants. They are: Epidermal tissue system (derived from protoderm) Ground tissue system (derived from ground meristem) Vascular tissue system (derived from procambium) <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/8-240921132551-fb91c0d2-thumbnail.jpg?width=120&height=120&fit=bounds" /> A group of tissues performing a similar function, irrespective of its position in the plant body, is called a tissue system. In 1875, German Scientist Julius von Sachs recognized three tissue systems in the plants. They are: Epidermal tissue system (derived from protoderm) Ground tissue system (derived from ground meristem) Vascular tissue system (derived from procambium)

Tissue System - Epidermis, ground tissue, vascular tissue from Sunita Sangwan

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0 Secretory tissue present in plants.. /slideshow/secretory-tissue-present-in-plants/271934859 7-240921131410-df781a97
These are the cells or group of cells that produce a variety of secretions are called secretory tissues. These may be present at certain localized area in plants or may be distributed throughout the plant body. The secreted substance may remain deposited within the secretory cell itself or may be excreted, that is, released from the cell. Substances may be excreted to the surface of the plant or into intercellular cavities or canals. Some of the many substances contained in the secretions are not further utilized by the plant (resins, rubber, tannins, and various crystals), while others take part in the functions of the plant (enzymes and hormones). ]]>
These are the cells or group of cells that produce a variety of secretions are called secretory tissues. These may be present at certain localized area in plants or may be distributed throughout the plant body. The secreted substance may remain deposited within the secretory cell itself or may be excreted, that is, released from the cell. Substances may be excreted to the surface of the plant or into intercellular cavities or canals. Some of the many substances contained in the secretions are not further utilized by the plant (resins, rubber, tannins, and various crystals), while others take part in the functions of the plant (enzymes and hormones). ]]> Sat, 21 Sep 2024 13:14:10 GMT /slideshow/secretory-tissue-present-in-plants/271934859 sangwansunita@slideshare.net(sangwansunita) Secretory tissue present in plants.. sangwansunita These are the cells or group of cells that produce a variety of secretions are called secretory tissues. These may be present at certain localized area in plants or may be distributed throughout the plant body. The secreted substance may remain deposited within the secretory cell itself or may be excreted, that is, released from the cell. Substances may be excreted to the surface of the plant or into intercellular cavities or canals. Some of the many substances contained in the secretions are not further utilized by the plant (resins, rubber, tannins, and various crystals), while others take part in the functions of the plant (enzymes and hormones). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/7-240921131410-df781a97-thumbnail.jpg?width=120&height=120&fit=bounds" /> These are the cells or group of cells that produce a variety of secretions are called secretory tissues. These may be present at certain localized area in plants or may be distributed throughout the plant body. The secreted substance may remain deposited within the secretory cell itself or may be excreted, that is, released from the cell. Substances may be excreted to the surface of the plant or into intercellular cavities or canals. Some of the many substances contained in the secretions are not further utilized by the plant (resins, rubber, tannins, and various crystals), while others take part in the functions of the plant (enzymes and hormones).

Secretory tissue present in plants.. from Sunita Sangwan

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0 Phloem - Complex permanent tissue in plants /slideshow/phloem-complex-permanent-tissue-in-plants/271934784 6-240921130717-c14a822d
Phloem is the food conducting complex tissues of vascular plants. which is associated with xylem in the vascular system also termed as bast or laptome. The term phloem was coined by C. Nageli (1858) Like xylem phloem is also consists of living and dead cells of primary and secondary origin. The Phloem which is derived from procambium is called primary phloem and the phloem which is derived from vascular cambium is called secondary phloem. Early formed primary phloem elements are called protophloem whereas the later formed primary phloem elements are called metaphloem. Protophloem is short lived. It gets crushed by the developing metaphloem. ]]>
Phloem is the food conducting complex tissues of vascular plants. which is associated with xylem in the vascular system also termed as bast or laptome. The term phloem was coined by C. Nageli (1858) Like xylem phloem is also consists of living and dead cells of primary and secondary origin. The Phloem which is derived from procambium is called primary phloem and the phloem which is derived from vascular cambium is called secondary phloem. Early formed primary phloem elements are called protophloem whereas the later formed primary phloem elements are called metaphloem. Protophloem is short lived. It gets crushed by the developing metaphloem. ]]> Sat, 21 Sep 2024 13:07:17 GMT /slideshow/phloem-complex-permanent-tissue-in-plants/271934784 sangwansunita@slideshare.net(sangwansunita) Phloem - Complex permanent tissue in plants sangwansunita Phloem is the food conducting complex tissues of vascular plants. which is associated with xylem in the vascular system also termed as bast or laptome. The term phloem was coined by C. Nageli (1858) Like xylem phloem is also consists of living and dead cells of primary and secondary origin. The Phloem which is derived from procambium is called primary phloem and the phloem which is derived from vascular cambium is called secondary phloem. Early formed primary phloem elements are called protophloem whereas the later formed primary phloem elements are called metaphloem. Protophloem is short lived. It gets crushed by the developing metaphloem. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/6-240921130717-c14a822d-thumbnail.jpg?width=120&height=120&fit=bounds" /> Phloem is the food conducting complex tissues of vascular plants. which is associated with xylem in the vascular system also termed as bast or laptome. The term phloem was coined by C. Nageli (1858) Like xylem phloem is also consists of living and dead cells of primary and secondary origin. The Phloem which is derived from procambium is called primary phloem and the phloem which is derived from vascular cambium is called secondary phloem. Early formed primary phloem elements are called protophloem whereas the later formed primary phloem elements are called metaphloem. Protophloem is short lived. It gets crushed by the developing metaphloem.

Phloem - Complex permanent tissue in plants from Sunita Sangwan

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0 Xylem- complex permanent tissue in plants /slideshow/xylem-complex-permanent-tissue-in-plants/271666528 5-240909065536-075840c5
Xylem (Greek word xylos- wood) is main conduction tissue in plant body. It consist both type of living and dead cells and may be primary or secondary in origin. The primary xylem develop from the procambium of apical meristem whereas the secondary xylem formed from vascular cambium. The earlier formed xylem from procambium is called protoxylem and later formed is known as metaxylem. Size and shapes of cells varies in protoxylem and metaxylem. ]]>
Xylem (Greek word xylos- wood) is main conduction tissue in plant body. It consist both type of living and dead cells and may be primary or secondary in origin. The primary xylem develop from the procambium of apical meristem whereas the secondary xylem formed from vascular cambium. The earlier formed xylem from procambium is called protoxylem and later formed is known as metaxylem. Size and shapes of cells varies in protoxylem and metaxylem. ]]> Mon, 09 Sep 2024 06:55:36 GMT /slideshow/xylem-complex-permanent-tissue-in-plants/271666528 sangwansunita@slideshare.net(sangwansunita) Xylem- complex permanent tissue in plants sangwansunita Xylem (Greek word xylos- wood) is main conduction tissue in plant body. It consist both type of living and dead cells and may be primary or secondary in origin. The primary xylem develop from the procambium of apical meristem whereas the secondary xylem formed from vascular cambium. The earlier formed xylem from procambium is called protoxylem and later formed is known as metaxylem. Size and shapes of cells varies in protoxylem and metaxylem. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5-240909065536-075840c5-thumbnail.jpg?width=120&height=120&fit=bounds" /> Xylem (Greek word xylos- wood) is main conduction tissue in plant body. It consist both type of living and dead cells and may be primary or secondary in origin. The primary xylem develop from the procambium of apical meristem whereas the secondary xylem formed from vascular cambium. The earlier formed xylem from procambium is called protoxylem and later formed is known as metaxylem. Size and shapes of cells varies in protoxylem and metaxylem.

Xylem- complex permanent tissue in plants from Sunita Sangwan

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0 Simple permanent tissue- Parenchyma, Collenchyma and Sclerenchyma /slideshow/simple-permanent-tissue-parenchyma-collenchyma-and-sclerenchyma/271348925 4-240827075710-0bef0af3
These are also termed as mature tissues. Permanent tissues are mature tissues derived from meristematic tissues that have undergone complete growth and differentiation. Not all the cells totally differ from the meristems as some cells retain the power of division and others cannot divide. In a strict sense only those cells which have lost the power for division must be regarded as permanent tissues, but in a broad sense, cells derived from meristem that have acquired a special function like photosynthesis, secretion, storage are treated as part of matured tissue. The cells of these tissues may be living or dead and thin or thick walled. The thin walled tissue are generally living whereas the thick walled may be dead or living. Simple tissues are made up of similar type of cells forming a uniform system of cell. Simple tissues are of three types based on various structural differences. These are parenchyma, collenchyma and sclerenchyma. ]]>
These are also termed as mature tissues. Permanent tissues are mature tissues derived from meristematic tissues that have undergone complete growth and differentiation. Not all the cells totally differ from the meristems as some cells retain the power of division and others cannot divide. In a strict sense only those cells which have lost the power for division must be regarded as permanent tissues, but in a broad sense, cells derived from meristem that have acquired a special function like photosynthesis, secretion, storage are treated as part of matured tissue. The cells of these tissues may be living or dead and thin or thick walled. The thin walled tissue are generally living whereas the thick walled may be dead or living. Simple tissues are made up of similar type of cells forming a uniform system of cell. Simple tissues are of three types based on various structural differences. These are parenchyma, collenchyma and sclerenchyma. ]]> Tue, 27 Aug 2024 07:57:10 GMT /slideshow/simple-permanent-tissue-parenchyma-collenchyma-and-sclerenchyma/271348925 sangwansunita@slideshare.net(sangwansunita) Simple permanent tissue- Parenchyma, Collenchyma and Sclerenchyma sangwansunita These are also termed as mature tissues. Permanent tissues are mature tissues derived from meristematic tissues that have undergone complete growth and differentiation. Not all the cells totally differ from the meristems as some cells retain the power of division and others cannot divide. In a strict sense only those cells which have lost the power for division must be regarded as permanent tissues, but in a broad sense, cells derived from meristem that have acquired a special function like photosynthesis, secretion, storage are treated as part of matured tissue. The cells of these tissues may be living or dead and thin or thick walled. The thin walled tissue are generally living whereas the thick walled may be dead or living. Simple tissues are made up of similar type of cells forming a uniform system of cell. Simple tissues are of three types based on various structural differences. These are parenchyma, collenchyma and sclerenchyma. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/4-240827075710-0bef0af3-thumbnail.jpg?width=120&height=120&fit=bounds" /> These are also termed as mature tissues. Permanent tissues are mature tissues derived from meristematic tissues that have undergone complete growth and differentiation. Not all the cells totally differ from the meristems as some cells retain the power of division and others cannot divide. In a strict sense only those cells which have lost the power for division must be regarded as permanent tissues, but in a broad sense, cells derived from meristem that have acquired a special function like photosynthesis, secretion, storage are treated as part of matured tissue. The cells of these tissues may be living or dead and thin or thick walled. The thin walled tissue are generally living whereas the thick walled may be dead or living. Simple tissues are made up of similar type of cells forming a uniform system of cell. Simple tissues are of three types based on various structural differences. These are parenchyma, collenchyma and sclerenchyma.

Simple permanent tissue- Parenchyma, Collenchyma and Sclerenchyma from Sunita Sangwan

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0 3. Root Apical Meristem and theories of root apical meristem /slideshow/3-root-apical-meristem-and-theories-of-root-apical-meristem/271290123 3-240825104009-9183114b
The cells of the apical meristem of primary root have dense cytoplasm, large nuclei and divide actively. This meristem differentiates into embryonic radicle. All the permanent tissues of the root are originated from the root apical meristem. The root apical meristem is sub-terminal in position as terminal position is occupied by a root-cap. The meristem that develop root cap is termed as calyptrogen. ]]>
The cells of the apical meristem of primary root have dense cytoplasm, large nuclei and divide actively. This meristem differentiates into embryonic radicle. All the permanent tissues of the root are originated from the root apical meristem. The root apical meristem is sub-terminal in position as terminal position is occupied by a root-cap. The meristem that develop root cap is termed as calyptrogen. ]]> Sun, 25 Aug 2024 10:40:09 GMT /slideshow/3-root-apical-meristem-and-theories-of-root-apical-meristem/271290123 sangwansunita@slideshare.net(sangwansunita) 3. Root Apical Meristem and theories of root apical meristem sangwansunita The cells of the apical meristem of primary root have dense cytoplasm, large nuclei and divide actively. This meristem differentiates into embryonic radicle. All the permanent tissues of the root are originated from the root apical meristem. The root apical meristem is sub-terminal in position as terminal position is occupied by a root-cap. The meristem that develop root cap is termed as calyptrogen. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/3-240825104009-9183114b-thumbnail.jpg?width=120&height=120&fit=bounds" /> The cells of the apical meristem of primary root have dense cytoplasm, large nuclei and divide actively. This meristem differentiates into embryonic radicle. All the permanent tissues of the root are originated from the root apical meristem. The root apical meristem is sub-terminal in position as terminal position is occupied by a root-cap. The meristem that develop root cap is termed as calyptrogen.

3. Root Apical Meristem and theories of root apical meristem from Sunita Sangwan

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0 2. Shoot Apical Meristem and theories of shoot apical meristem /slideshow/2-shoot-apical-meristem-and-theories-of-shoot-apical-meristem/271290050 2-240825103506-fc081ebe
this ppt contains detailed information of shoot apical meristem and various theories of shoot apical meristem]]>
this ppt contains detailed information of shoot apical meristem and various theories of shoot apical meristem]]> Sun, 25 Aug 2024 10:35:06 GMT /slideshow/2-shoot-apical-meristem-and-theories-of-shoot-apical-meristem/271290050 sangwansunita@slideshare.net(sangwansunita) 2. Shoot Apical Meristem and theories of shoot apical meristem sangwansunita this ppt contains detailed information of shoot apical meristem and various theories of shoot apical meristem <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-240825103506-fc081ebe-thumbnail.jpg?width=120&height=120&fit=bounds" /> this ppt contains detailed information of shoot apical meristem and various theories of shoot apical meristem

2. Shoot Apical Meristem and theories of shoot apical meristem from Sunita Sangwan

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0 Meristematic tissue and its various types /slideshow/meristematic-tissue-and-its-various-types/271289653 1-240825100147-3efd06a9
this presentation includes the meristematic tissue and its types on the basis of origin, Function, position and plane of division]]>
this presentation includes the meristematic tissue and its types on the basis of origin, Function, position and plane of division]]> Sun, 25 Aug 2024 10:01:47 GMT /slideshow/meristematic-tissue-and-its-various-types/271289653 sangwansunita@slideshare.net(sangwansunita) Meristematic tissue and its various types sangwansunita this presentation includes the meristematic tissue and its types on the basis of origin, Function, position and plane of division <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1-240825100147-3efd06a9-thumbnail.jpg?width=120&height=120&fit=bounds" /> this presentation includes the meristematic tissue and its types on the basis of origin, Function, position and plane of division

Meristematic tissue and its various types from Sunita Sangwan

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0 cell membrane /slideshow/cell-membrane-254181444/254181444 2cellmembrane-221114054551-8d0ce21e
Cell membrane]]>
Cell membrane]]> Mon, 14 Nov 2022 05:45:51 GMT /slideshow/cell-membrane-254181444/254181444 sangwansunita@slideshare.net(sangwansunita) cell membrane sangwansunita Cell membrane <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2cellmembrane-221114054551-8d0ce21e-thumbnail.jpg?width=120&height=120&fit=bounds" /> Cell membrane

cell membrane from Sunita Sangwan

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0 1cell wall.pptx /slideshow/1cell-wallpptx/253318896 1cellwall-221003051145-01bcc1ea
Cell wall structure and function]]>
Cell wall structure and function]]> Mon, 03 Oct 2022 05:11:45 GMT /slideshow/1cell-wallpptx/253318896 sangwansunita@slideshare.net(sangwansunita) 1cell wall.pptx sangwansunita Cell wall structure and function <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1cellwall-221003051145-01bcc1ea-thumbnail.jpg?width=120&height=120&fit=bounds" /> Cell wall structure and function

1cell wall.pptx from Sunita Sangwan

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0 Enzyme inhibition - Competitive, Non- Competitive, Uncompetitive, Allosteric /sangwansunita/enzyme-inhibition-competitive-non-competitive-uncompetitive-allosteric 4-210530173137
In this ppt competitive inhibition of enzymes is fully explained with its examples. it will be helpful for all the life science students. Non Competitive inhibition , Uncompetitive inhibition & Irreversible inhibition of Enzymes have been well explained in this presentation. it will be helpful for biochemistry, botany, zoology and other life/bio sciences students. I tried to explain Allosteric enzymes, their mechanism of action, Allosteric inhibition, Feedback inhibition in this presentation so that it can be easy to understand the concept for viewers.]]>
In this ppt competitive inhibition of enzymes is fully explained with its examples. it will be helpful for all the life science students. Non Competitive inhibition , Uncompetitive inhibition & Irreversible inhibition of Enzymes have been well explained in this presentation. it will be helpful for biochemistry, botany, zoology and other life/bio sciences students. I tried to explain Allosteric enzymes, their mechanism of action, Allosteric inhibition, Feedback inhibition in this presentation so that it can be easy to understand the concept for viewers.]]> Sun, 30 May 2021 17:31:37 GMT /sangwansunita/enzyme-inhibition-competitive-non-competitive-uncompetitive-allosteric sangwansunita@slideshare.net(sangwansunita) Enzyme inhibition - Competitive, Non- Competitive, Uncompetitive, Allosteric sangwansunita In this ppt competitive inhibition of enzymes is fully explained with its examples. it will be helpful for all the life science students. Non Competitive inhibition , Uncompetitive inhibition & Irreversible inhibition of Enzymes have been well explained in this presentation. it will be helpful for biochemistry, botany, zoology and other life/bio sciences students. I tried to explain Allosteric enzymes, their mechanism of action, Allosteric inhibition, Feedback inhibition in this presentation so that it can be easy to understand the concept for viewers. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/4-210530173137-thumbnail.jpg?width=120&height=120&fit=bounds" /> In this ppt competitive inhibition of enzymes is fully explained with its examples. it will be helpful for all the life science students. Non Competitive inhibition , Uncompetitive inhibition & Irreversible inhibition of Enzymes have been well explained in this presentation. it will be helpful for biochemistry, botany, zoology and other life/bio sciences students. I tried to explain Allosteric enzymes, their mechanism of action, Allosteric inhibition, Feedback inhibition in this presentation so that it can be easy to understand the concept for viewers.

Enzyme inhibition - Competitive, Non- Competitive, Uncompetitive, Allosteric from Sunita Sangwan

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0 Enzyme mechanism of action & kinetics /sangwansunita/enzyme-mechanism-of-action-kinetics 3-210530172720
this presentation explain the mechanism of action of enzymes how they interact with their substrates by the two theories i.e. Lock & Key Mechanism and Induced Fit model. it also explains the active site details. In this presentation Enzyme Kinetics is explained by Michaelis–Menten equation. this also include derivation of Michaelis–Menten equation.]]>
this presentation explain the mechanism of action of enzymes how they interact with their substrates by the two theories i.e. Lock & Key Mechanism and Induced Fit model. it also explains the active site details. In this presentation Enzyme Kinetics is explained by Michaelis–Menten equation. this also include derivation of Michaelis–Menten equation.]]> Sun, 30 May 2021 17:27:20 GMT /sangwansunita/enzyme-mechanism-of-action-kinetics sangwansunita@slideshare.net(sangwansunita) Enzyme mechanism of action & kinetics sangwansunita this presentation explain the mechanism of action of enzymes how they interact with their substrates by the two theories i.e. Lock & Key Mechanism and Induced Fit model. it also explains the active site details. In this presentation Enzyme Kinetics is explained by Michaelis–Menten equation. this also include derivation of Michaelis–Menten equation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/3-210530172720-thumbnail.jpg?width=120&height=120&fit=bounds" /> this presentation explain the mechanism of action of enzymes how they interact with their substrates by the two theories i.e. Lock & Key Mechanism and Induced Fit model. it also explains the active site details. In this presentation Enzyme Kinetics is explained by Michaelis–Menten equation. this also include derivation of Michaelis–Menten equation.

Enzyme mechanism of action & kinetics from Sunita Sangwan

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0 Charcterstics of enzymes /slideshow/charcterstics-of-enzymes/248757955 2-210530171849
his video explains the different Characteristics of enzymes like specificity, efficiency, catalytic, protein and colloidal nature. https://youtu.be/EzCSWQAv7so link for you tube video]]>
his video explains the different Characteristics of enzymes like specificity, efficiency, catalytic, protein and colloidal nature. https://youtu.be/EzCSWQAv7so link for you tube video]]> Sun, 30 May 2021 17:18:48 GMT /slideshow/charcterstics-of-enzymes/248757955 sangwansunita@slideshare.net(sangwansunita) Charcterstics of enzymes sangwansunita his video explains the different Characteristics of enzymes like specificity, efficiency, catalytic, protein and colloidal nature. https://youtu.be/EzCSWQAv7so link for you tube video <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-210530171849-thumbnail.jpg?width=120&height=120&fit=bounds" /> his video explains the different Characteristics of enzymes like specificity, efficiency, catalytic, protein and colloidal nature. https://youtu.be/EzCSWQAv7so link for you tube video

Charcterstics of enzymes from Sunita Sangwan

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0 Nomenclature of enzymes /slideshow/nomenclature-of-enzymes-248757881/248757881 1-210530170302
this video describes the introduction about enzymes and nomenclature of enzymes. it explains IUB system of classification of Enzyme fully. it also explains the different classes of enzymes and enzyme commission number. https://youtu.be/JZOx9v1V7mA you tube link for lecture]]>
this video describes the introduction about enzymes and nomenclature of enzymes. it explains IUB system of classification of Enzyme fully. it also explains the different classes of enzymes and enzyme commission number. https://youtu.be/JZOx9v1V7mA you tube link for lecture]]> Sun, 30 May 2021 17:03:01 GMT /slideshow/nomenclature-of-enzymes-248757881/248757881 sangwansunita@slideshare.net(sangwansunita) Nomenclature of enzymes sangwansunita this video describes the introduction about enzymes and nomenclature of enzymes. it explains IUB system of classification of Enzyme fully. it also explains the different classes of enzymes and enzyme commission number. https://youtu.be/JZOx9v1V7mA you tube link for lecture <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1-210530170302-thumbnail.jpg?width=120&height=120&fit=bounds" /> this video describes the introduction about enzymes and nomenclature of enzymes. it explains IUB system of classification of Enzyme fully. it also explains the different classes of enzymes and enzyme commission number. https://youtu.be/JZOx9v1V7mA you tube link for lecture

Nomenclature of enzymes from Sunita Sangwan

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0 Photosynthesis - Introduction /slideshow/photosynthesis-introduction-247680470/247680470 1-210504070821
this presentation describes the basics of photosynthesis. it includes Significance of photosynthesis, Photosynthetic apparatus, Absorption & action spectra, Absorption & action spectra, Factors affecting photosynthesis, Photosynthetic apparatus, Position of photosynthetic pigments, Photosynthetic pigments, Functions of carotenoids, Phycobilins, Principle /Blackman’s law of limiting factors. ]]>
this presentation describes the basics of photosynthesis. it includes Significance of photosynthesis, Photosynthetic apparatus, Absorption & action spectra, Absorption & action spectra, Factors affecting photosynthesis, Photosynthetic apparatus, Position of photosynthetic pigments, Photosynthetic pigments, Functions of carotenoids, Phycobilins, Principle /Blackman’s law of limiting factors. ]]> Tue, 04 May 2021 07:08:21 GMT /slideshow/photosynthesis-introduction-247680470/247680470 sangwansunita@slideshare.net(sangwansunita) Photosynthesis - Introduction sangwansunita this presentation describes the basics of photosynthesis. it includes Significance of photosynthesis, Photosynthetic apparatus, Absorption & action spectra, Absorption & action spectra, Factors affecting photosynthesis, Photosynthetic apparatus, Position of photosynthetic pigments, Photosynthetic pigments, Functions of carotenoids, Phycobilins, Principle /Blackman’s law of limiting factors. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1-210504070821-thumbnail.jpg?width=120&height=120&fit=bounds" /> this presentation describes the basics of photosynthesis. it includes Significance of photosynthesis, Photosynthetic apparatus, Absorption & action spectra, Absorption & action spectra, Factors affecting photosynthesis, Photosynthetic apparatus, Position of photosynthetic pigments, Photosynthetic pigments, Functions of carotenoids, Phycobilins, Principle /Blackman’s law of limiting factors.

Photosynthesis - Introduction from Sunita Sangwan

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0 Seed dormancy /slideshow/seed-dormancy-247610630/247610630 15-210503161840
Seed dormancy is fully explained in this ppt. it includes causes ( dormancy due to hard seed coat, dormancy due to condition of embryo, dormancy due to absence of light, dormancy due to low temperature etc. ) of seed dormancy, types of seed dormancy, various methods to remove seed dormancy like impaction, stratification, scarification, exposure of seed to light]]>
Seed dormancy is fully explained in this ppt. it includes causes ( dormancy due to hard seed coat, dormancy due to condition of embryo, dormancy due to absence of light, dormancy due to low temperature etc. ) of seed dormancy, types of seed dormancy, various methods to remove seed dormancy like impaction, stratification, scarification, exposure of seed to light]]> Mon, 03 May 2021 16:18:39 GMT /slideshow/seed-dormancy-247610630/247610630 sangwansunita@slideshare.net(sangwansunita) Seed dormancy sangwansunita Seed dormancy is fully explained in this ppt. it includes causes ( dormancy due to hard seed coat, dormancy due to condition of embryo, dormancy due to absence of light, dormancy due to low temperature etc. ) of seed dormancy, types of seed dormancy, various methods to remove seed dormancy like impaction, stratification, scarification, exposure of seed to light <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/15-210503161840-thumbnail.jpg?width=120&height=120&fit=bounds" /> Seed dormancy is fully explained in this ppt. it includes causes ( dormancy due to hard seed coat, dormancy due to condition of embryo, dormancy due to absence of light, dormancy due to low temperature etc. ) of seed dormancy, types of seed dormancy, various methods to remove seed dormancy like impaction, stratification, scarification, exposure of seed to light

Seed dormancy from Sunita Sangwan

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0 Growth and development /slideshow/growth-and-development-247609998/247609998 14-210503160353
this presentation describes the concept of growth and development of plants in details. it explains different types and phases of growth. it also contain notes on growth rate that ie arithmetic & geometric. Growth curve and growth requirements are also well explained in this ppt. it also define differentiation, dedifferentiation and redifferentiation. ]]>
this presentation describes the concept of growth and development of plants in details. it explains different types and phases of growth. it also contain notes on growth rate that ie arithmetic & geometric. Growth curve and growth requirements are also well explained in this ppt. it also define differentiation, dedifferentiation and redifferentiation. ]]> Mon, 03 May 2021 16:03:53 GMT /slideshow/growth-and-development-247609998/247609998 sangwansunita@slideshare.net(sangwansunita) Growth and development sangwansunita this presentation describes the concept of growth and development of plants in details. it explains different types and phases of growth. it also contain notes on growth rate that ie arithmetic & geometric. Growth curve and growth requirements are also well explained in this ppt. it also define differentiation, dedifferentiation and redifferentiation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/14-210503160353-thumbnail.jpg?width=120&height=120&fit=bounds" /> this presentation describes the concept of growth and development of plants in details. it explains different types and phases of growth. it also contain notes on growth rate that ie arithmetic & geometric. Growth curve and growth requirements are also well explained in this ppt. it also define differentiation, dedifferentiation and redifferentiation.

Growth and development from Sunita Sangwan

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0 Nomenclature of enzymes /slideshow/nomenclature-of-enzymes-247591118/247591118 1-210503095900
this presentation describes the basics of enzymology like enzyme definition, history of enzyme discovery. it also explains the IUB nomenclature of enzyme proposed by Enzyme commission]]>
this presentation describes the basics of enzymology like enzyme definition, history of enzyme discovery. it also explains the IUB nomenclature of enzyme proposed by Enzyme commission]]> Mon, 03 May 2021 09:59:00 GMT /slideshow/nomenclature-of-enzymes-247591118/247591118 sangwansunita@slideshare.net(sangwansunita) Nomenclature of enzymes sangwansunita this presentation describes the basics of enzymology like enzyme definition, history of enzyme discovery. it also explains the IUB nomenclature of enzyme proposed by Enzyme commission <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1-210503095900-thumbnail.jpg?width=120&height=120&fit=bounds" /> this presentation describes the basics of enzymology like enzyme definition, history of enzyme discovery. it also explains the IUB nomenclature of enzyme proposed by Enzyme commission

Nomenclature of enzymes from Sunita Sangwan

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0 Photosynthesis - dark reaction /slideshow/13-photosynthesis-dark-reaction/241402504 13-210115170440
this presentation explains all the phases of dark reaction. it includes c3 cycle, c4 cycle, CAM cycle, photorespiration.]]>
this presentation explains all the phases of dark reaction. it includes c3 cycle, c4 cycle, CAM cycle, photorespiration.]]> Fri, 15 Jan 2021 17:04:40 GMT /slideshow/13-photosynthesis-dark-reaction/241402504 sangwansunita@slideshare.net(sangwansunita) Photosynthesis - dark reaction sangwansunita this presentation explains all the phases of dark reaction. it includes c3 cycle, c4 cycle, CAM cycle, photorespiration. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/13-210115170440-thumbnail.jpg?width=120&height=120&fit=bounds" /> this presentation explains all the phases of dark reaction. it includes c3 cycle, c4 cycle, CAM cycle, photorespiration.

Photosynthesis - dark reaction from Sunita Sangwan

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0 Photosynthesis light phase /slideshow/photosynthesis-light-phase-241401928/241401928 12-210115163803
this presentation describes light phase of photosynthesis. it explains Evidences for two phases, Photosynthetic unit & Harvesting of light energy, Emerson effect &two photosystem, Hill reaction & Photolysis /photo-oxidation of water, Redox potential & mechanism of light reaction, Cyclic photophosphorylation, Non- cyclic photophosphorylation . ]]>
this presentation describes light phase of photosynthesis. it explains Evidences for two phases, Photosynthetic unit & Harvesting of light energy, Emerson effect &two photosystem, Hill reaction & Photolysis /photo-oxidation of water, Redox potential & mechanism of light reaction, Cyclic photophosphorylation, Non- cyclic photophosphorylation . ]]> Fri, 15 Jan 2021 16:38:03 GMT /slideshow/photosynthesis-light-phase-241401928/241401928 sangwansunita@slideshare.net(sangwansunita) Photosynthesis light phase sangwansunita this presentation describes light phase of photosynthesis. it explains Evidences for two phases, Photosynthetic unit & Harvesting of light energy, Emerson effect &two photosystem, Hill reaction & Photolysis /photo-oxidation of water, Redox potential & mechanism of light reaction, Cyclic photophosphorylation, Non- cyclic photophosphorylation . <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/12-210115163803-thumbnail.jpg?width=120&height=120&fit=bounds" /> this presentation describes light phase of photosynthesis. it explains Evidences for two phases, Photosynthetic unit & Harvesting of light energy, Emerson effect &two photosystem, Hill reaction & Photolysis /photo-oxidation of water, Redox potential & mechanism of light reaction, Cyclic photophosphorylation, Non- cyclic photophosphorylation .

Photosynthesis light phase from Sunita Sangwan

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0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/8-240921132551-fb91c0d2-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/tissue-system-epidermis-ground-tissue-vascular-tissue/271935002 Tissue System - Epider... https://cdn.slidesharecdn.com/ss_thumbnails/7-240921131410-df781a97-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/secretory-tissue-present-in-plants/271934859 Secretory tissue pre... https://cdn.slidesharecdn.com/ss_thumbnails/6-240921130717-c14a822d-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/phloem-complex-permanent-tissue-in-plants/271934784 Phloem - Complex perma...