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Sun, 13 Mar 2022 09:14:55 GMT狠狠撸Share feed for 狠狠撸shows by User: AhmadVKashaniMSc16 - From DNA To Protein - Part II
/slideshow/16-from-dna-to-protein-part-ii/251337881
2425-fromdnatoprotein-partii-220313091456 The process of DNA expression, or more widely known as gene expression is the synthesis of proteins using RNA molecules from genes. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The last step of the expression of genes that code for proteins is translation.
賮乇丌蹖賳丿 亘蹖丕賳 DNA貙 蹖丕 亘蹖卮鬲乇 亘賴 毓賳賵丕賳 亘蹖丕賳 跇賳 卮賳丕禺鬲賴 賲蹖鈥屫促堌� 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 亘丕 丕爻鬲賮丕丿賴 丕夭 賲賵賱讴賵賱鈥屬囏й� RNA 丕夭 跇賳鈥屬囏ж池�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA鈥屬囏�) 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 丌禺乇蹖賳 賲乇丨賱賴 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 讴丿 賲蹖鈥屭┵嗁嗀� 鬲乇噩賲賴 丕爻鬲.
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The process of DNA expression, or more widely known as gene expression is the synthesis of proteins using RNA molecules from genes. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The last step of the expression of genes that code for proteins is translation.
賮乇丌蹖賳丿 亘蹖丕賳 DNA貙 蹖丕 亘蹖卮鬲乇 亘賴 毓賳賵丕賳 亘蹖丕賳 跇賳 卮賳丕禺鬲賴 賲蹖鈥屫促堌� 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 亘丕 丕爻鬲賮丕丿賴 丕夭 賲賵賱讴賵賱鈥屬囏й� RNA 丕夭 跇賳鈥屬囏ж池�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA鈥屬囏�) 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 丌禺乇蹖賳 賲乇丨賱賴 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 讴丿 賲蹖鈥屭┵嗁嗀� 鬲乇噩賲賴 丕爻鬲.
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Sun, 13 Mar 2022 09:14:55 GMT/slideshow/16-from-dna-to-protein-part-ii/251337881AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)16 - From DNA To Protein - Part IIAhmadVKashaniMScThe process of DNA expression, or more widely known as gene expression is the synthesis of proteins using RNA molecules from genes. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The last step of the expression of genes that code for proteins is translation.
賮乇丌蹖賳丿 亘蹖丕賳 DNA貙 蹖丕 亘蹖卮鬲乇 亘賴 毓賳賵丕賳 亘蹖丕賳 跇賳 卮賳丕禺鬲賴 賲蹖鈥屫促堌� 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 亘丕 丕爻鬲賮丕丿賴 丕夭 賲賵賱讴賵賱鈥屬囏й� RNA 丕夭 跇賳鈥屬囏ж池�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA鈥屬囏�) 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 丌禺乇蹖賳 賲乇丨賱賴 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 讴丿 賲蹖鈥屭┵嗁嗀� 鬲乇噩賲賴 丕爻鬲.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2425-fromdnatoprotein-partii-220313091456-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> The process of DNA expression, or more widely known as gene expression is the synthesis of proteins using RNA molecules from genes. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The last step of the expression of genes that code for proteins is translation.
賮乇丌蹖賳丿 亘蹖丕賳 DNA貙 蹖丕 亘蹖卮鬲乇 亘賴 毓賳賵丕賳 亘蹖丕賳 跇賳 卮賳丕禺鬲賴 賲蹖鈥屫促堌� 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 亘丕 丕爻鬲賮丕丿賴 丕夭 賲賵賱讴賵賱鈥屬囏й� RNA 丕夭 跇賳鈥屬囏ж池�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA鈥屬囏�) 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 丌禺乇蹖賳 賲乇丨賱賴 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 讴丿 賲蹖鈥屭┵嗁嗀� 鬲乇噩賲賴 丕爻鬲.
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1200https://cdn.slidesharecdn.com/ss_thumbnails/2425-fromdnatoprotein-partii-220313091456-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted015 - From DNA to Protein - Part I
/slideshow/15-from-dna-to-protein-part-i/251006172
2223-fromdnatoprotein-parti-220117080257 The inherited DNA of an organism contains specific traits that dictate the synthesis of proteins through the RNA molecules involved in protein synthesis. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The expression of genes that code for proteins includes two stages: transcription and translation. In this slide, we are going to take a look into the processes of replication and transcription.
DNA 丕乇孬蹖 蹖讴 丕乇诏丕賳蹖爻賲 丨丕賵蹖 氐賮丕鬲 禺丕氐蹖 丕爻鬲 讴賴 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 丕夭 胤乇蹖賯 賲賵賱讴賵賱鈥屬囏й� RNA 丿乇诏蹖乇 丿乇 爻賳鬲夭 倬乇賵鬲卅蹖賳 丿蹖讴鬲賴 賲蹖鈥屭┵嗀�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA 賴丕( 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 亘乇丕蹖 倬乇賵鬲卅蹖賳鈥屬囏� 讴丿 賲蹖鈥屭┵嗁嗀� 卮丕賲賱 丿賵 賲乇丨賱賴 丕爻鬲: 乇賵賳賵蹖爻蹖 賵 鬲乇噩賲賴. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賯氐丿 丿丕乇蹖賲 賳诏丕賴蹖 亘賴 賮乇丌蹖賳丿賴丕蹖 賴賲丕賳賳丿爻丕夭蹖 賵 乇賵賳賵蹖爻蹖 亘蹖丕賳丿丕夭蹖賲.
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The inherited DNA of an organism contains specific traits that dictate the synthesis of proteins through the RNA molecules involved in protein synthesis. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The expression of genes that code for proteins includes two stages: transcription and translation. In this slide, we are going to take a look into the processes of replication and transcription.
DNA 丕乇孬蹖 蹖讴 丕乇诏丕賳蹖爻賲 丨丕賵蹖 氐賮丕鬲 禺丕氐蹖 丕爻鬲 讴賴 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 丕夭 胤乇蹖賯 賲賵賱讴賵賱鈥屬囏й� RNA 丿乇诏蹖乇 丿乇 爻賳鬲夭 倬乇賵鬲卅蹖賳 丿蹖讴鬲賴 賲蹖鈥屭┵嗀�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA 賴丕( 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 亘乇丕蹖 倬乇賵鬲卅蹖賳鈥屬囏� 讴丿 賲蹖鈥屭┵嗁嗀� 卮丕賲賱 丿賵 賲乇丨賱賴 丕爻鬲: 乇賵賳賵蹖爻蹖 賵 鬲乇噩賲賴. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賯氐丿 丿丕乇蹖賲 賳诏丕賴蹖 亘賴 賮乇丌蹖賳丿賴丕蹖 賴賲丕賳賳丿爻丕夭蹖 賵 乇賵賳賵蹖爻蹖 亘蹖丕賳丿丕夭蹖賲.
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Mon, 17 Jan 2022 08:02:56 GMT/slideshow/15-from-dna-to-protein-part-i/251006172AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)15 - From DNA to Protein - Part IAhmadVKashaniMScThe inherited DNA of an organism contains specific traits that dictate the synthesis of proteins through the RNA molecules involved in protein synthesis. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The expression of genes that code for proteins includes two stages: transcription and translation. In this slide, we are going to take a look into the processes of replication and transcription.
DNA 丕乇孬蹖 蹖讴 丕乇诏丕賳蹖爻賲 丨丕賵蹖 氐賮丕鬲 禺丕氐蹖 丕爻鬲 讴賴 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 丕夭 胤乇蹖賯 賲賵賱讴賵賱鈥屬囏й� RNA 丿乇诏蹖乇 丿乇 爻賳鬲夭 倬乇賵鬲卅蹖賳 丿蹖讴鬲賴 賲蹖鈥屭┵嗀�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA 賴丕( 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 亘乇丕蹖 倬乇賵鬲卅蹖賳鈥屬囏� 讴丿 賲蹖鈥屭┵嗁嗀� 卮丕賲賱 丿賵 賲乇丨賱賴 丕爻鬲: 乇賵賳賵蹖爻蹖 賵 鬲乇噩賲賴. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賯氐丿 丿丕乇蹖賲 賳诏丕賴蹖 亘賴 賮乇丌蹖賳丿賴丕蹖 賴賲丕賳賳丿爻丕夭蹖 賵 乇賵賳賵蹖爻蹖 亘蹖丕賳丿丕夭蹖賲.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2223-fromdnatoprotein-parti-220117080257-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> The inherited DNA of an organism contains specific traits that dictate the synthesis of proteins through the RNA molecules involved in protein synthesis. In other words, proteins are the link between genotype and phenotype. Gene expression is the process by which DNA directs the synthesis of proteins (or, in some cases, just RNAs). The expression of genes that code for proteins includes two stages: transcription and translation. In this slide, we are going to take a look into the processes of replication and transcription.
DNA 丕乇孬蹖 蹖讴 丕乇诏丕賳蹖爻賲 丨丕賵蹖 氐賮丕鬲 禺丕氐蹖 丕爻鬲 讴賴 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕 丕夭 胤乇蹖賯 賲賵賱讴賵賱鈥屬囏й� RNA 丿乇诏蹖乇 丿乇 爻賳鬲夭 倬乇賵鬲卅蹖賳 丿蹖讴鬲賴 賲蹖鈥屭┵嗀�. 亘賴 毓亘丕乇鬲 丿蹖诏乇貙 倬乇賵鬲卅蹖賳鈥屬囏� 乇丕亘胤 亘蹖賳 跇賳賵鬲蹖倬 賵 賮賳賵鬲蹖倬 賴爻鬲賳丿. 亘蹖丕賳 跇賳 賮乇丌蹖賳丿蹖 丕爻鬲 讴賴 丿乇 丌賳 DNA 爻賳鬲夭 倬乇賵鬲卅蹖賳鈥屬囏� (蹖丕 丿乇 亘乇禺蹖 賲賵丕乇丿 賮賯胤 RNA 賴丕( 乇丕 賴丿丕蹖鬲 賲蹖鈥屭┵嗀�. 亘蹖丕賳 跇賳鈥屬囏й屰� 讴賴 亘乇丕蹖 倬乇賵鬲卅蹖賳鈥屬囏� 讴丿 賲蹖鈥屭┵嗁嗀� 卮丕賲賱 丿賵 賲乇丨賱賴 丕爻鬲: 乇賵賳賵蹖爻蹖 賵 鬲乇噩賲賴. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賯氐丿 丿丕乇蹖賲 賳诏丕賴蹖 亘賴 賮乇丌蹖賳丿賴丕蹖 賴賲丕賳賳丿爻丕夭蹖 賵 乇賵賳賵蹖爻蹖 亘蹖丕賳丿丕夭蹖賲.
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730https://cdn.slidesharecdn.com/ss_thumbnails/2223-fromdnatoprotein-parti-220117080257-thumbnail.jpg?width=120&height=120&fit=boundspresentation000000http://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted014 - The Chromosomal Basis of Inheritance
/AhmadVKashaniMSc/14-the-chromosomal-basis-of-inheritance-248572139
2021-thechromosomalbasisofinheritance-210526142620 When chromosomes are duplicated, each chromosome has two copies of the allele, one on each sister chromatid. However, Gregor Mendel鈥檚 鈥渉ereditary factors鈥� were purely an abstract concept when he proposed their existence in 1860. Using improved techniques of microscopy, cytology and genetics were converged as biologists began to see parallels between the behavior of Mendel鈥檚 proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into 鈥渢he chromosome theory of inheritance鈥�. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment.
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賵賯鬲蹖 讴乇賵賲賵夭賵賲鈥屬囏� 讴倬蹖 賲蹖鈥屫促堎嗀� 賴乇 讴乇賵賲賵夭賵賲 丿丕乇丕蹖 丿賵 賳爻禺賴 丕夭 蹖讴 丌賱賱 丕爻鬲 讴賴 賴乇 讴丿丕賲 亘乇 乇賵蹖 賴乇 讴乇賵賲丕鬲蹖丿 禺賵丕賴乇蹖 賯乇丕乇 丿丕乇丿. 亘丕 丕蹖賳 丨丕賱貙 丕氐賱 "毓賵丕賲賱 賵乇丕孬鬲蹖" 賲賳丿賱貙 賴賳诏丕賲蹖 讴賴 賵蹖 丿乇 爻丕賱 1860 賵噩賵丿 丌賳賴丕 乇丕 賲胤乇丨 讴乇丿貙 蹖讴 賲賮賴賵賲 讴丕賲賱丕賸 丕賳鬲夭丕毓蹖 亘賵丿. 亘丕 丕爻鬲賮丕丿賴 丕夭 鬲讴賳蹖讴鈥屬囏й� 亘賴亘賵丿 蹖丕賮鬲賴 賲蹖讴乇賵爻讴賵倬蹖貙 爻蹖鬲賵賱賵跇蹖 賵 跇賳鬲蹖讴 賴賲诏乇丕 卮丿賳丿貙 夭蹖乇丕 夭蹖爻鬲 卮賳丕爻丕賳 乇賮鬲丕乇賴丕蹖 賲賵丕夭蹖 亘蹖賳 毓賵丕賲賱 賵乇丕孬鬲蹖 賲賳丿賱 丿乇 胤賵賱 趩乇禺賴鈥屬囏й� 噩賳爻蹖 乇丕 賲卮丕賴丿賴 讴乇丿賳丿 讴賴 亘毓丿賴丕 丕蹖賳 乇賮鬲丕乇賴丕蹖 讴乇賵賲賵夭賵賲蹖 亘賴 "賳馗乇蹖賴 讴乇賵賲賵夭賵賲蹖 賵乇丕孬鬲 " 鬲亘丿蹖賱 卮丿. 亘乇丕爻丕爻 丕蹖賳 賳馗乇蹖賴貙 跇賳鈥屬囏й� 賲賳丿賱蹖 丿丕乇丕蹖 賲賵賯毓蹖鬲鈥屬囏й� (賲賵賯毓蹖鬲) 禺丕氐蹖 丿乇 丕賲鬲丿丕丿 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 賵 丕蹖賳 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 讴賴 鬲丨鬲 噩丿丕爻丕夭蹖 賵 胤亘賯賴 亘賳丿蹖 賲爻鬲賯賱 賯乇丕乇 賲蹖鈥屭屫辟嗀�.
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When chromosomes are duplicated, each chromosome has two copies of the allele, one on each sister chromatid. However, Gregor Mendel鈥檚 鈥渉ereditary factors鈥� were purely an abstract concept when he proposed their existence in 1860. Using improved techniques of microscopy, cytology and genetics were converged as biologists began to see parallels between the behavior of Mendel鈥檚 proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into 鈥渢he chromosome theory of inheritance鈥�. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment.
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賵賯鬲蹖 讴乇賵賲賵夭賵賲鈥屬囏� 讴倬蹖 賲蹖鈥屫促堎嗀� 賴乇 讴乇賵賲賵夭賵賲 丿丕乇丕蹖 丿賵 賳爻禺賴 丕夭 蹖讴 丌賱賱 丕爻鬲 讴賴 賴乇 讴丿丕賲 亘乇 乇賵蹖 賴乇 讴乇賵賲丕鬲蹖丿 禺賵丕賴乇蹖 賯乇丕乇 丿丕乇丿. 亘丕 丕蹖賳 丨丕賱貙 丕氐賱 "毓賵丕賲賱 賵乇丕孬鬲蹖" 賲賳丿賱貙 賴賳诏丕賲蹖 讴賴 賵蹖 丿乇 爻丕賱 1860 賵噩賵丿 丌賳賴丕 乇丕 賲胤乇丨 讴乇丿貙 蹖讴 賲賮賴賵賲 讴丕賲賱丕賸 丕賳鬲夭丕毓蹖 亘賵丿. 亘丕 丕爻鬲賮丕丿賴 丕夭 鬲讴賳蹖讴鈥屬囏й� 亘賴亘賵丿 蹖丕賮鬲賴 賲蹖讴乇賵爻讴賵倬蹖貙 爻蹖鬲賵賱賵跇蹖 賵 跇賳鬲蹖讴 賴賲诏乇丕 卮丿賳丿貙 夭蹖乇丕 夭蹖爻鬲 卮賳丕爻丕賳 乇賮鬲丕乇賴丕蹖 賲賵丕夭蹖 亘蹖賳 毓賵丕賲賱 賵乇丕孬鬲蹖 賲賳丿賱 丿乇 胤賵賱 趩乇禺賴鈥屬囏й� 噩賳爻蹖 乇丕 賲卮丕賴丿賴 讴乇丿賳丿 讴賴 亘毓丿賴丕 丕蹖賳 乇賮鬲丕乇賴丕蹖 讴乇賵賲賵夭賵賲蹖 亘賴 "賳馗乇蹖賴 讴乇賵賲賵夭賵賲蹖 賵乇丕孬鬲 " 鬲亘丿蹖賱 卮丿. 亘乇丕爻丕爻 丕蹖賳 賳馗乇蹖賴貙 跇賳鈥屬囏й� 賲賳丿賱蹖 丿丕乇丕蹖 賲賵賯毓蹖鬲鈥屬囏й� (賲賵賯毓蹖鬲) 禺丕氐蹖 丿乇 丕賲鬲丿丕丿 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 賵 丕蹖賳 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 讴賴 鬲丨鬲 噩丿丕爻丕夭蹖 賵 胤亘賯賴 亘賳丿蹖 賲爻鬲賯賱 賯乇丕乇 賲蹖鈥屭屫辟嗀�.
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Wed, 26 May 2021 14:26:19 GMT/AhmadVKashaniMSc/14-the-chromosomal-basis-of-inheritance-248572139AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)14 - The Chromosomal Basis of InheritanceAhmadVKashaniMScWhen chromosomes are duplicated, each chromosome has two copies of the allele, one on each sister chromatid. However, Gregor Mendel鈥檚 鈥渉ereditary factors鈥� were purely an abstract concept when he proposed their existence in 1860. Using improved techniques of microscopy, cytology and genetics were converged as biologists began to see parallels between the behavior of Mendel鈥檚 proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into 鈥渢he chromosome theory of inheritance鈥�. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment.
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賵賯鬲蹖 讴乇賵賲賵夭賵賲鈥屬囏� 讴倬蹖 賲蹖鈥屫促堎嗀� 賴乇 讴乇賵賲賵夭賵賲 丿丕乇丕蹖 丿賵 賳爻禺賴 丕夭 蹖讴 丌賱賱 丕爻鬲 讴賴 賴乇 讴丿丕賲 亘乇 乇賵蹖 賴乇 讴乇賵賲丕鬲蹖丿 禺賵丕賴乇蹖 賯乇丕乇 丿丕乇丿. 亘丕 丕蹖賳 丨丕賱貙 丕氐賱 "毓賵丕賲賱 賵乇丕孬鬲蹖" 賲賳丿賱貙 賴賳诏丕賲蹖 讴賴 賵蹖 丿乇 爻丕賱 1860 賵噩賵丿 丌賳賴丕 乇丕 賲胤乇丨 讴乇丿貙 蹖讴 賲賮賴賵賲 讴丕賲賱丕賸 丕賳鬲夭丕毓蹖 亘賵丿. 亘丕 丕爻鬲賮丕丿賴 丕夭 鬲讴賳蹖讴鈥屬囏й� 亘賴亘賵丿 蹖丕賮鬲賴 賲蹖讴乇賵爻讴賵倬蹖貙 爻蹖鬲賵賱賵跇蹖 賵 跇賳鬲蹖讴 賴賲诏乇丕 卮丿賳丿貙 夭蹖乇丕 夭蹖爻鬲 卮賳丕爻丕賳 乇賮鬲丕乇賴丕蹖 賲賵丕夭蹖 亘蹖賳 毓賵丕賲賱 賵乇丕孬鬲蹖 賲賳丿賱 丿乇 胤賵賱 趩乇禺賴鈥屬囏й� 噩賳爻蹖 乇丕 賲卮丕賴丿賴 讴乇丿賳丿 讴賴 亘毓丿賴丕 丕蹖賳 乇賮鬲丕乇賴丕蹖 讴乇賵賲賵夭賵賲蹖 亘賴 "賳馗乇蹖賴 讴乇賵賲賵夭賵賲蹖 賵乇丕孬鬲 " 鬲亘丿蹖賱 卮丿. 亘乇丕爻丕爻 丕蹖賳 賳馗乇蹖賴貙 跇賳鈥屬囏й� 賲賳丿賱蹖 丿丕乇丕蹖 賲賵賯毓蹖鬲鈥屬囏й� (賲賵賯毓蹖鬲) 禺丕氐蹖 丿乇 丕賲鬲丿丕丿 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 賵 丕蹖賳 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 讴賴 鬲丨鬲 噩丿丕爻丕夭蹖 賵 胤亘賯賴 亘賳丿蹖 賲爻鬲賯賱 賯乇丕乇 賲蹖鈥屭屫辟嗀�.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2021-thechromosomalbasisofinheritance-210526142620-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> When chromosomes are duplicated, each chromosome has two copies of the allele, one on each sister chromatid. However, Gregor Mendel鈥檚 鈥渉ereditary factors鈥� were purely an abstract concept when he proposed their existence in 1860. Using improved techniques of microscopy, cytology and genetics were converged as biologists began to see parallels between the behavior of Mendel鈥檚 proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into 鈥渢he chromosome theory of inheritance鈥�. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment.
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賵賯鬲蹖 讴乇賵賲賵夭賵賲鈥屬囏� 讴倬蹖 賲蹖鈥屫促堎嗀� 賴乇 讴乇賵賲賵夭賵賲 丿丕乇丕蹖 丿賵 賳爻禺賴 丕夭 蹖讴 丌賱賱 丕爻鬲 讴賴 賴乇 讴丿丕賲 亘乇 乇賵蹖 賴乇 讴乇賵賲丕鬲蹖丿 禺賵丕賴乇蹖 賯乇丕乇 丿丕乇丿. 亘丕 丕蹖賳 丨丕賱貙 丕氐賱 "毓賵丕賲賱 賵乇丕孬鬲蹖" 賲賳丿賱貙 賴賳诏丕賲蹖 讴賴 賵蹖 丿乇 爻丕賱 1860 賵噩賵丿 丌賳賴丕 乇丕 賲胤乇丨 讴乇丿貙 蹖讴 賲賮賴賵賲 讴丕賲賱丕賸 丕賳鬲夭丕毓蹖 亘賵丿. 亘丕 丕爻鬲賮丕丿賴 丕夭 鬲讴賳蹖讴鈥屬囏й� 亘賴亘賵丿 蹖丕賮鬲賴 賲蹖讴乇賵爻讴賵倬蹖貙 爻蹖鬲賵賱賵跇蹖 賵 跇賳鬲蹖讴 賴賲诏乇丕 卮丿賳丿貙 夭蹖乇丕 夭蹖爻鬲 卮賳丕爻丕賳 乇賮鬲丕乇賴丕蹖 賲賵丕夭蹖 亘蹖賳 毓賵丕賲賱 賵乇丕孬鬲蹖 賲賳丿賱 丿乇 胤賵賱 趩乇禺賴鈥屬囏й� 噩賳爻蹖 乇丕 賲卮丕賴丿賴 讴乇丿賳丿 讴賴 亘毓丿賴丕 丕蹖賳 乇賮鬲丕乇賴丕蹖 讴乇賵賲賵夭賵賲蹖 亘賴 "賳馗乇蹖賴 讴乇賵賲賵夭賵賲蹖 賵乇丕孬鬲 " 鬲亘丿蹖賱 卮丿. 亘乇丕爻丕爻 丕蹖賳 賳馗乇蹖賴貙 跇賳鈥屬囏й� 賲賳丿賱蹖 丿丕乇丕蹖 賲賵賯毓蹖鬲鈥屬囏й� (賲賵賯毓蹖鬲) 禺丕氐蹖 丿乇 丕賲鬲丿丕丿 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 賵 丕蹖賳 讴乇賵賲賵夭賵賲鈥屬囏� 賴爻鬲賳丿 讴賴 鬲丨鬲 噩丿丕爻丕夭蹖 賵 胤亘賯賴 亘賳丿蹖 賲爻鬲賯賱 賯乇丕乇 賲蹖鈥屭屫辟嗀�.
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600https://cdn.slidesharecdn.com/ss_thumbnails/2021-thechromosomalbasisofinheritance-210526142620-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted013 - Mendel and the Gene Idea
/slideshow/13-mendel-and-the-gene-idea-248323875/248323875
2021-mendelandthegeneidea-210516140514 鬲賵囟蹖丨 賵乇丕孬鬲 亘賴 胤賵乇 讴賱蹖 賵 诏爻鬲乇丿賴 丿乇 丿賴賴 1800貙 賵 亘賴 胤賵乇 賲卮禺氐 賮乇囟蹖賴 "賲禺賱賵胤 卮丿賳" 賲賵乇丿 倬爻賳丿 丿丕賳卮賲賳丿丕賳 賵 夭蹖爻鬲 卮賳丕爻丕賳 毓氐乇 禺賵丿 亘賵丿. 亘乇丕爻丕爻 丕蹖賳 丕蹖丿賴貙 賲賵丕丿 跇賳鬲蹖讴蹖 鬲賵爻胤 賵丕賱丿蹖賳 賵 丿乇爻鬲 賴賲丕賳 胤賵乇 讴賴 乇賳诏 賴丕蹖 丌亘蹖 賵 夭乇丿 亘乇丕蹖 鬲亘丿蹖賱 卮丿賳 亘賴 乇賳诏 爻亘夭 鬲乇讴蹖亘 賲蹖鈥屫促堎嗀� 賲禺賱賵胤 賲蹖鈥屫簇嗀�. 丕賱亘鬲賴 丕蹖賳 賮乇囟蹖賴 鬲賵囟蹖丨 賳賲蹖鈥屫ж� 讴賴 趩诏賵賳賴 氐賮丕鬲 倬爻 丕夭 讴賳丕乇 乇賮鬲賳 蹖讴 賳爻賱 丿賵亘丕乇賴 丿乇 賳爻賱 亘毓丿蹖 馗丕賴乇 賲蹖鈥屫促堎嗀�. 蹖讴 诏夭蹖賳賴 噩丕蹖诏夭蹖賳 亘乇丕蹖 賲丿賱 賲禺賱賵胤 卮丿賳 賲賵丕丿 跇賳鬲蹖讴蹖貙 賮乇囟蹖賴 賵乇丕孬鬲 "匕乇丕鬲 賲毓賱賯" 丕爻鬲 蹖丕 賴賲丕賳 丕蹖丿賴 跇賳. 丿乇 丕蹖賳 賲丿賱貙 賵丕賱丿蹖賳 賵丕丨丿賴丕蹖 賲賵乇賵孬蹖 亘賴 賳丕賲 跇賳賴丕 乇丕 讴賴 賴賵蹖鬲 噩丿丕诏丕賳賴 禺賵丿 乇丕 丿乇 賮乇夭賳丿丕賳 丨賮馗 賲蹖 讴賳賳丿貙 賲賳鬲賯賱 賲蹖鈥屭┵嗁嗀�. 诏乇蹖诏賵乇 賲賳丿賱 乇丕賴亘蹖 亘賵丿 賰賴 爻丕夭賵賰丕乇 匕乇賴鈥屫й� 丕蹖賳 賳賵毓 賵丕乇孬鬲 乇丕 亘丕 丕爻鬲賮丕丿賴 丕夭 诏蹖丕賴 賳禺賵丿 賮乇賳诏蹖 亘賴 丕孬亘丕鬲 乇爻丕賳丿.
The explanation of heredity most widely in favor during the 1800s was the 鈥渂lending鈥� hypothesis, the idea that genetic material contributed by the two parents, mixes just as blue and yellow paints blend to make green. The blending hypothesis failed to explain how traits can reappear after they鈥檝e skipped a generation. An alternative to the blending model is a 鈥減articulate鈥� hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable units鈥攇enes鈥� that retain their separate identities in offspring. Gregor Mendel was the monk who documented a particulate mechanism for this form of inheritance using pea plants.]]>
鬲賵囟蹖丨 賵乇丕孬鬲 亘賴 胤賵乇 讴賱蹖 賵 诏爻鬲乇丿賴 丿乇 丿賴賴 1800貙 賵 亘賴 胤賵乇 賲卮禺氐 賮乇囟蹖賴 "賲禺賱賵胤 卮丿賳" 賲賵乇丿 倬爻賳丿 丿丕賳卮賲賳丿丕賳 賵 夭蹖爻鬲 卮賳丕爻丕賳 毓氐乇 禺賵丿 亘賵丿. 亘乇丕爻丕爻 丕蹖賳 丕蹖丿賴貙 賲賵丕丿 跇賳鬲蹖讴蹖 鬲賵爻胤 賵丕賱丿蹖賳 賵 丿乇爻鬲 賴賲丕賳 胤賵乇 讴賴 乇賳诏 賴丕蹖 丌亘蹖 賵 夭乇丿 亘乇丕蹖 鬲亘丿蹖賱 卮丿賳 亘賴 乇賳诏 爻亘夭 鬲乇讴蹖亘 賲蹖鈥屫促堎嗀� 賲禺賱賵胤 賲蹖鈥屫簇嗀�. 丕賱亘鬲賴 丕蹖賳 賮乇囟蹖賴 鬲賵囟蹖丨 賳賲蹖鈥屫ж� 讴賴 趩诏賵賳賴 氐賮丕鬲 倬爻 丕夭 讴賳丕乇 乇賮鬲賳 蹖讴 賳爻賱 丿賵亘丕乇賴 丿乇 賳爻賱 亘毓丿蹖 馗丕賴乇 賲蹖鈥屫促堎嗀�. 蹖讴 诏夭蹖賳賴 噩丕蹖诏夭蹖賳 亘乇丕蹖 賲丿賱 賲禺賱賵胤 卮丿賳 賲賵丕丿 跇賳鬲蹖讴蹖貙 賮乇囟蹖賴 賵乇丕孬鬲 "匕乇丕鬲 賲毓賱賯" 丕爻鬲 蹖丕 賴賲丕賳 丕蹖丿賴 跇賳. 丿乇 丕蹖賳 賲丿賱貙 賵丕賱丿蹖賳 賵丕丨丿賴丕蹖 賲賵乇賵孬蹖 亘賴 賳丕賲 跇賳賴丕 乇丕 讴賴 賴賵蹖鬲 噩丿丕诏丕賳賴 禺賵丿 乇丕 丿乇 賮乇夭賳丿丕賳 丨賮馗 賲蹖 讴賳賳丿貙 賲賳鬲賯賱 賲蹖鈥屭┵嗁嗀�. 诏乇蹖诏賵乇 賲賳丿賱 乇丕賴亘蹖 亘賵丿 賰賴 爻丕夭賵賰丕乇 匕乇賴鈥屫й� 丕蹖賳 賳賵毓 賵丕乇孬鬲 乇丕 亘丕 丕爻鬲賮丕丿賴 丕夭 诏蹖丕賴 賳禺賵丿 賮乇賳诏蹖 亘賴 丕孬亘丕鬲 乇爻丕賳丿.
The explanation of heredity most widely in favor during the 1800s was the 鈥渂lending鈥� hypothesis, the idea that genetic material contributed by the two parents, mixes just as blue and yellow paints blend to make green. The blending hypothesis failed to explain how traits can reappear after they鈥檝e skipped a generation. An alternative to the blending model is a 鈥減articulate鈥� hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable units鈥攇enes鈥� that retain their separate identities in offspring. Gregor Mendel was the monk who documented a particulate mechanism for this form of inheritance using pea plants.]]>
Sun, 16 May 2021 14:05:13 GMT/slideshow/13-mendel-and-the-gene-idea-248323875/248323875AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)13 - Mendel and the Gene IdeaAhmadVKashaniMSc鬲賵囟蹖丨 賵乇丕孬鬲 亘賴 胤賵乇 讴賱蹖 賵 诏爻鬲乇丿賴 丿乇 丿賴賴 1800貙 賵 亘賴 胤賵乇 賲卮禺氐 賮乇囟蹖賴 "賲禺賱賵胤 卮丿賳" 賲賵乇丿 倬爻賳丿 丿丕賳卮賲賳丿丕賳 賵 夭蹖爻鬲 卮賳丕爻丕賳 毓氐乇 禺賵丿 亘賵丿. 亘乇丕爻丕爻 丕蹖賳 丕蹖丿賴貙 賲賵丕丿 跇賳鬲蹖讴蹖 鬲賵爻胤 賵丕賱丿蹖賳 賵 丿乇爻鬲 賴賲丕賳 胤賵乇 讴賴 乇賳诏 賴丕蹖 丌亘蹖 賵 夭乇丿 亘乇丕蹖 鬲亘丿蹖賱 卮丿賳 亘賴 乇賳诏 爻亘夭 鬲乇讴蹖亘 賲蹖鈥屫促堎嗀� 賲禺賱賵胤 賲蹖鈥屫簇嗀�. 丕賱亘鬲賴 丕蹖賳 賮乇囟蹖賴 鬲賵囟蹖丨 賳賲蹖鈥屫ж� 讴賴 趩诏賵賳賴 氐賮丕鬲 倬爻 丕夭 讴賳丕乇 乇賮鬲賳 蹖讴 賳爻賱 丿賵亘丕乇賴 丿乇 賳爻賱 亘毓丿蹖 馗丕賴乇 賲蹖鈥屫促堎嗀�. 蹖讴 诏夭蹖賳賴 噩丕蹖诏夭蹖賳 亘乇丕蹖 賲丿賱 賲禺賱賵胤 卮丿賳 賲賵丕丿 跇賳鬲蹖讴蹖貙 賮乇囟蹖賴 賵乇丕孬鬲 "匕乇丕鬲 賲毓賱賯" 丕爻鬲 蹖丕 賴賲丕賳 丕蹖丿賴 跇賳. 丿乇 丕蹖賳 賲丿賱貙 賵丕賱丿蹖賳 賵丕丨丿賴丕蹖 賲賵乇賵孬蹖 亘賴 賳丕賲 跇賳賴丕 乇丕 讴賴 賴賵蹖鬲 噩丿丕诏丕賳賴 禺賵丿 乇丕 丿乇 賮乇夭賳丿丕賳 丨賮馗 賲蹖 讴賳賳丿貙 賲賳鬲賯賱 賲蹖鈥屭┵嗁嗀�. 诏乇蹖诏賵乇 賲賳丿賱 乇丕賴亘蹖 亘賵丿 賰賴 爻丕夭賵賰丕乇 匕乇賴鈥屫й� 丕蹖賳 賳賵毓 賵丕乇孬鬲 乇丕 亘丕 丕爻鬲賮丕丿賴 丕夭 诏蹖丕賴 賳禺賵丿 賮乇賳诏蹖 亘賴 丕孬亘丕鬲 乇爻丕賳丿.
The explanation of heredity most widely in favor during the 1800s was the 鈥渂lending鈥� hypothesis, the idea that genetic material contributed by the two parents, mixes just as blue and yellow paints blend to make green. The blending hypothesis failed to explain how traits can reappear after they鈥檝e skipped a generation. An alternative to the blending model is a 鈥減articulate鈥� hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable units鈥攇enes鈥� that retain their separate identities in offspring. Gregor Mendel was the monk who documented a particulate mechanism for this form of inheritance using pea plants.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2021-mendelandthegeneidea-210516140514-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 鬲賵囟蹖丨 賵乇丕孬鬲 亘賴 胤賵乇 讴賱蹖 賵 诏爻鬲乇丿賴 丿乇 丿賴賴 1800貙 賵 亘賴 胤賵乇 賲卮禺氐 賮乇囟蹖賴 "賲禺賱賵胤 卮丿賳" 賲賵乇丿 倬爻賳丿 丿丕賳卮賲賳丿丕賳 賵 夭蹖爻鬲 卮賳丕爻丕賳 毓氐乇 禺賵丿 亘賵丿. 亘乇丕爻丕爻 丕蹖賳 丕蹖丿賴貙 賲賵丕丿 跇賳鬲蹖讴蹖 鬲賵爻胤 賵丕賱丿蹖賳 賵 丿乇爻鬲 賴賲丕賳 胤賵乇 讴賴 乇賳诏 賴丕蹖 丌亘蹖 賵 夭乇丿 亘乇丕蹖 鬲亘丿蹖賱 卮丿賳 亘賴 乇賳诏 爻亘夭 鬲乇讴蹖亘 賲蹖鈥屫促堎嗀� 賲禺賱賵胤 賲蹖鈥屫簇嗀�. 丕賱亘鬲賴 丕蹖賳 賮乇囟蹖賴 鬲賵囟蹖丨 賳賲蹖鈥屫ж� 讴賴 趩诏賵賳賴 氐賮丕鬲 倬爻 丕夭 讴賳丕乇 乇賮鬲賳 蹖讴 賳爻賱 丿賵亘丕乇賴 丿乇 賳爻賱 亘毓丿蹖 馗丕賴乇 賲蹖鈥屫促堎嗀�. 蹖讴 诏夭蹖賳賴 噩丕蹖诏夭蹖賳 亘乇丕蹖 賲丿賱 賲禺賱賵胤 卮丿賳 賲賵丕丿 跇賳鬲蹖讴蹖貙 賮乇囟蹖賴 賵乇丕孬鬲 "匕乇丕鬲 賲毓賱賯" 丕爻鬲 蹖丕 賴賲丕賳 丕蹖丿賴 跇賳. 丿乇 丕蹖賳 賲丿賱貙 賵丕賱丿蹖賳 賵丕丨丿賴丕蹖 賲賵乇賵孬蹖 亘賴 賳丕賲 跇賳賴丕 乇丕 讴賴 賴賵蹖鬲 噩丿丕诏丕賳賴 禺賵丿 乇丕 丿乇 賮乇夭賳丿丕賳 丨賮馗 賲蹖 讴賳賳丿貙 賲賳鬲賯賱 賲蹖鈥屭┵嗁嗀�. 诏乇蹖诏賵乇 賲賳丿賱 乇丕賴亘蹖 亘賵丿 賰賴 爻丕夭賵賰丕乇 匕乇賴鈥屫й� 丕蹖賳 賳賵毓 賵丕乇孬鬲 乇丕 亘丕 丕爻鬲賮丕丿賴 丕夭 诏蹖丕賴 賳禺賵丿 賮乇賳诏蹖 亘賴 丕孬亘丕鬲 乇爻丕賳丿.
The explanation of heredity most widely in favor during the 1800s was the 鈥渂lending鈥� hypothesis, the idea that genetic material contributed by the two parents, mixes just as blue and yellow paints blend to make green. The blending hypothesis failed to explain how traits can reappear after they鈥檝e skipped a generation. An alternative to the blending model is a 鈥減articulate鈥� hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable units鈥攇enes鈥� that retain their separate identities in offspring. Gregor Mendel was the monk who documented a particulate mechanism for this form of inheritance using pea plants.
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2070https://cdn.slidesharecdn.com/ss_thumbnails/2021-mendelandthegeneidea-210516140514-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted012 - The Cell Division Cycle
/slideshow/12-the-cell-division-cycle/248126507
09the-cell-division-cycle-210508182606 The ability of organisms to produce more of their own kind is the one characteristic that best distinguishes living things from nonliving matter. This unique capacity to procreate, like all biological functions, has a cellular basis. The continuity of life is based on the reproduction of cells, or cell division. Cell division plays several important roles which are giving rise to a new organism, enabling development, renewing and repairing and also replacing damaged tissue is multicellular organisms.
鬲賵丕賳丕蹖蹖 賲賵噩賵丿丕鬲 夭賳丿賴 丿乇 鬲賵賱蹖丿 亘蹖卮鬲乇 丕夭 賳賵毓 禺賵丿 蹖讴蹖 丕夭 賵蹖跇诏蹖鈥屬囏й屰� 丕爻鬲 讴賴 賲賵噩賵丿丕鬲 夭賳丿賴 乇丕 丕夭 賲賵丕丿 睾蹖乇 夭賳丿賴 亘賴 亘賴鬲乇蹖賳 賵噩賴 賲鬲賲丕蹖夭 賲蹖 讴賳丿. 丕蹖賳 馗乇賮蹖鬲 賲賳丨氐乇 亘賴 賮乇丿 亘乇丕蹖 鬲賵賱蹖丿 賲孬賱貙 賲丕賳賳丿 賴賲賴 毓賲賱讴乇丿賴丕蹖 亘蹖賵賱賵跇蹖讴貙 丿丕乇丕蹖 倬丕蹖賴 爻賱賵賱蹖 丕爻鬲. 鬲丿丕賵賲 夭賳丿诏蹖 亘乇丕爻丕爻 鬲賵賱蹖丿 賲孬賱 爻賱賵賱鈥屬囏� 蹖丕 鬲賯爻蹖賲 爻賱賵賱蹖 丕爻鬲. 鬲賯爻蹖賲 爻賱賵賱蹖 趩賳丿蹖賳 賳賯卮 賲賴賲 乇丕 丕蹖賮丕 賲蹖鈥屭┵嗀� 讴賴 賳賴 鬲賳賴丕 亘丕毓孬 丕蹖噩丕丿 蹖讴 丕乇诏丕賳蹖爻賲 噩丿蹖丿 賲蹖鈥屫促堌€屫� 賴賲趩賳蹖賳 丕賲讴丕賳 乇卮丿貙 鬲噩丿蹖丿 賵 鬲乇賲蹖賲 賵 賴賲趩賳蹖賳 噩丕蹖诏夭蹖賳蹖 亘丕賮鬲 丌爻蹖亘 丿蹖丿賴 賲賵噩賵丿丕鬲 趩賳丿 爻賱賵賱蹖 乇丕 賳蹖夭 賮乇丕賴賲 賲蹖 讴賳丿.
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The ability of organisms to produce more of their own kind is the one characteristic that best distinguishes living things from nonliving matter. This unique capacity to procreate, like all biological functions, has a cellular basis. The continuity of life is based on the reproduction of cells, or cell division. Cell division plays several important roles which are giving rise to a new organism, enabling development, renewing and repairing and also replacing damaged tissue is multicellular organisms.
鬲賵丕賳丕蹖蹖 賲賵噩賵丿丕鬲 夭賳丿賴 丿乇 鬲賵賱蹖丿 亘蹖卮鬲乇 丕夭 賳賵毓 禺賵丿 蹖讴蹖 丕夭 賵蹖跇诏蹖鈥屬囏й屰� 丕爻鬲 讴賴 賲賵噩賵丿丕鬲 夭賳丿賴 乇丕 丕夭 賲賵丕丿 睾蹖乇 夭賳丿賴 亘賴 亘賴鬲乇蹖賳 賵噩賴 賲鬲賲丕蹖夭 賲蹖 讴賳丿. 丕蹖賳 馗乇賮蹖鬲 賲賳丨氐乇 亘賴 賮乇丿 亘乇丕蹖 鬲賵賱蹖丿 賲孬賱貙 賲丕賳賳丿 賴賲賴 毓賲賱讴乇丿賴丕蹖 亘蹖賵賱賵跇蹖讴貙 丿丕乇丕蹖 倬丕蹖賴 爻賱賵賱蹖 丕爻鬲. 鬲丿丕賵賲 夭賳丿诏蹖 亘乇丕爻丕爻 鬲賵賱蹖丿 賲孬賱 爻賱賵賱鈥屬囏� 蹖丕 鬲賯爻蹖賲 爻賱賵賱蹖 丕爻鬲. 鬲賯爻蹖賲 爻賱賵賱蹖 趩賳丿蹖賳 賳賯卮 賲賴賲 乇丕 丕蹖賮丕 賲蹖鈥屭┵嗀� 讴賴 賳賴 鬲賳賴丕 亘丕毓孬 丕蹖噩丕丿 蹖讴 丕乇诏丕賳蹖爻賲 噩丿蹖丿 賲蹖鈥屫促堌€屫� 賴賲趩賳蹖賳 丕賲讴丕賳 乇卮丿貙 鬲噩丿蹖丿 賵 鬲乇賲蹖賲 賵 賴賲趩賳蹖賳 噩丕蹖诏夭蹖賳蹖 亘丕賮鬲 丌爻蹖亘 丿蹖丿賴 賲賵噩賵丿丕鬲 趩賳丿 爻賱賵賱蹖 乇丕 賳蹖夭 賮乇丕賴賲 賲蹖 讴賳丿.
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Sat, 08 May 2021 18:26:06 GMT/slideshow/12-the-cell-division-cycle/248126507AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)12 - The Cell Division CycleAhmadVKashaniMScThe ability of organisms to produce more of their own kind is the one characteristic that best distinguishes living things from nonliving matter. This unique capacity to procreate, like all biological functions, has a cellular basis. The continuity of life is based on the reproduction of cells, or cell division. Cell division plays several important roles which are giving rise to a new organism, enabling development, renewing and repairing and also replacing damaged tissue is multicellular organisms.
鬲賵丕賳丕蹖蹖 賲賵噩賵丿丕鬲 夭賳丿賴 丿乇 鬲賵賱蹖丿 亘蹖卮鬲乇 丕夭 賳賵毓 禺賵丿 蹖讴蹖 丕夭 賵蹖跇诏蹖鈥屬囏й屰� 丕爻鬲 讴賴 賲賵噩賵丿丕鬲 夭賳丿賴 乇丕 丕夭 賲賵丕丿 睾蹖乇 夭賳丿賴 亘賴 亘賴鬲乇蹖賳 賵噩賴 賲鬲賲丕蹖夭 賲蹖 讴賳丿. 丕蹖賳 馗乇賮蹖鬲 賲賳丨氐乇 亘賴 賮乇丿 亘乇丕蹖 鬲賵賱蹖丿 賲孬賱貙 賲丕賳賳丿 賴賲賴 毓賲賱讴乇丿賴丕蹖 亘蹖賵賱賵跇蹖讴貙 丿丕乇丕蹖 倬丕蹖賴 爻賱賵賱蹖 丕爻鬲. 鬲丿丕賵賲 夭賳丿诏蹖 亘乇丕爻丕爻 鬲賵賱蹖丿 賲孬賱 爻賱賵賱鈥屬囏� 蹖丕 鬲賯爻蹖賲 爻賱賵賱蹖 丕爻鬲. 鬲賯爻蹖賲 爻賱賵賱蹖 趩賳丿蹖賳 賳賯卮 賲賴賲 乇丕 丕蹖賮丕 賲蹖鈥屭┵嗀� 讴賴 賳賴 鬲賳賴丕 亘丕毓孬 丕蹖噩丕丿 蹖讴 丕乇诏丕賳蹖爻賲 噩丿蹖丿 賲蹖鈥屫促堌€屫� 賴賲趩賳蹖賳 丕賲讴丕賳 乇卮丿貙 鬲噩丿蹖丿 賵 鬲乇賲蹖賲 賵 賴賲趩賳蹖賳 噩丕蹖诏夭蹖賳蹖 亘丕賮鬲 丌爻蹖亘 丿蹖丿賴 賲賵噩賵丿丕鬲 趩賳丿 爻賱賵賱蹖 乇丕 賳蹖夭 賮乇丕賴賲 賲蹖 讴賳丿.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/09the-cell-division-cycle-210508182606-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> The ability of organisms to produce more of their own kind is the one characteristic that best distinguishes living things from nonliving matter. This unique capacity to procreate, like all biological functions, has a cellular basis. The continuity of life is based on the reproduction of cells, or cell division. Cell division plays several important roles which are giving rise to a new organism, enabling development, renewing and repairing and also replacing damaged tissue is multicellular organisms.
鬲賵丕賳丕蹖蹖 賲賵噩賵丿丕鬲 夭賳丿賴 丿乇 鬲賵賱蹖丿 亘蹖卮鬲乇 丕夭 賳賵毓 禺賵丿 蹖讴蹖 丕夭 賵蹖跇诏蹖鈥屬囏й屰� 丕爻鬲 讴賴 賲賵噩賵丿丕鬲 夭賳丿賴 乇丕 丕夭 賲賵丕丿 睾蹖乇 夭賳丿賴 亘賴 亘賴鬲乇蹖賳 賵噩賴 賲鬲賲丕蹖夭 賲蹖 讴賳丿. 丕蹖賳 馗乇賮蹖鬲 賲賳丨氐乇 亘賴 賮乇丿 亘乇丕蹖 鬲賵賱蹖丿 賲孬賱貙 賲丕賳賳丿 賴賲賴 毓賲賱讴乇丿賴丕蹖 亘蹖賵賱賵跇蹖讴貙 丿丕乇丕蹖 倬丕蹖賴 爻賱賵賱蹖 丕爻鬲. 鬲丿丕賵賲 夭賳丿诏蹖 亘乇丕爻丕爻 鬲賵賱蹖丿 賲孬賱 爻賱賵賱鈥屬囏� 蹖丕 鬲賯爻蹖賲 爻賱賵賱蹖 丕爻鬲. 鬲賯爻蹖賲 爻賱賵賱蹖 趩賳丿蹖賳 賳賯卮 賲賴賲 乇丕 丕蹖賮丕 賲蹖鈥屭┵嗀� 讴賴 賳賴 鬲賳賴丕 亘丕毓孬 丕蹖噩丕丿 蹖讴 丕乇诏丕賳蹖爻賲 噩丿蹖丿 賲蹖鈥屫促堌€屫� 賴賲趩賳蹖賳 丕賲讴丕賳 乇卮丿貙 鬲噩丿蹖丿 賵 鬲乇賲蹖賲 賵 賴賲趩賳蹖賳 噩丕蹖诏夭蹖賳蹖 亘丕賮鬲 丌爻蹖亘 丿蹖丿賴 賲賵噩賵丿丕鬲 趩賳丿 爻賱賵賱蹖 乇丕 賳蹖夭 賮乇丕賴賲 賲蹖 讴賳丿.
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880https://cdn.slidesharecdn.com/ss_thumbnails/09the-cell-division-cycle-210508182606-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted011 - Cell Communication
/slideshow/11-cell-communication-241454214/241454214
1617-cellcommunication-210117110429 爻賱賵賱賴丕 賲蹖鈥屫堌з嗁嗀� 亘賴 蹖讴丿蹖诏乇 爻蹖诏賳丕賱 亘丿賴賳丿 賵 爻蹖诏賳丕賱賴丕蹖蹖 乇丕 讴賴 丕夭 爻賱賵賱賴丕蹖 丿蹖诏乇 賵 賲丨蹖胤 丿乇蹖丕賮鬲 賲蹖 讴賳賳丿貙 鬲賮爻蹖乇 讴賳賳丿. 爻蹖诏賳丕賱賴丕 賲賲讴賳 丕爻鬲 卮丕賲賱 賳賵乇 賵 蹖丕 亘乇 丕孬乇 鬲賲丕爻 亘丕卮賳丿貙 丕賲丕 丕睾賱亘 賲賵丕丿 卮蹖賲蹖丕蹖蹖 賴爻鬲賳丿. 丿乇 丕蹖賳 噩賱爻賴貙 賲丕 亘乇 賲讴丕賳蹖爻賲 賴丕蹖 丕氐賱蹖 丕賳鬲賯丕賱 倬蹖丕賲 賲鬲賲乇讴夭 賲蹖鈥屫促堐屬� 讴賴 爻賱賵賱鈥屬囏� 爻蹖诏賳丕賱鈥屬囏й� 卮蹖賲蹖丕蹖蹖 丕乇爻丕賱 卮丿賴 丕夭 爻賱賵賱鈥屬囏й� 丿蹖诏乇 乇丕 丿乇蹖丕賮鬲貙 倬乇丿丕夭卮 賵 倬丕爻禺 賲蹖鈥屫囐嗀�.
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Cells can signal to each other and interpret the signals they receive from other cells and the environment. The signals may include light and touch, but are most often chemicals. In this session, we focus on the main mechanisms by which cells receive, process, and respond to chemical signals sent from other cells.
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爻賱賵賱賴丕 賲蹖鈥屫堌з嗁嗀� 亘賴 蹖讴丿蹖诏乇 爻蹖诏賳丕賱 亘丿賴賳丿 賵 爻蹖诏賳丕賱賴丕蹖蹖 乇丕 讴賴 丕夭 爻賱賵賱賴丕蹖 丿蹖诏乇 賵 賲丨蹖胤 丿乇蹖丕賮鬲 賲蹖 讴賳賳丿貙 鬲賮爻蹖乇 讴賳賳丿. 爻蹖诏賳丕賱賴丕 賲賲讴賳 丕爻鬲 卮丕賲賱 賳賵乇 賵 蹖丕 亘乇 丕孬乇 鬲賲丕爻 亘丕卮賳丿貙 丕賲丕 丕睾賱亘 賲賵丕丿 卮蹖賲蹖丕蹖蹖 賴爻鬲賳丿. 丿乇 丕蹖賳 噩賱爻賴貙 賲丕 亘乇 賲讴丕賳蹖爻賲 賴丕蹖 丕氐賱蹖 丕賳鬲賯丕賱 倬蹖丕賲 賲鬲賲乇讴夭 賲蹖鈥屫促堐屬� 讴賴 爻賱賵賱鈥屬囏� 爻蹖诏賳丕賱鈥屬囏й� 卮蹖賲蹖丕蹖蹖 丕乇爻丕賱 卮丿賴 丕夭 爻賱賵賱鈥屬囏й� 丿蹖诏乇 乇丕 丿乇蹖丕賮鬲貙 倬乇丿丕夭卮 賵 倬丕爻禺 賲蹖鈥屫囐嗀�.
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Cells can signal to each other and interpret the signals they receive from other cells and the environment. The signals may include light and touch, but are most often chemicals. In this session, we focus on the main mechanisms by which cells receive, process, and respond to chemical signals sent from other cells.
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Sun, 17 Jan 2021 11:04:29 GMT/slideshow/11-cell-communication-241454214/241454214AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)11 - Cell CommunicationAhmadVKashaniMSc爻賱賵賱賴丕 賲蹖鈥屫堌з嗁嗀� 亘賴 蹖讴丿蹖诏乇 爻蹖诏賳丕賱 亘丿賴賳丿 賵 爻蹖诏賳丕賱賴丕蹖蹖 乇丕 讴賴 丕夭 爻賱賵賱賴丕蹖 丿蹖诏乇 賵 賲丨蹖胤 丿乇蹖丕賮鬲 賲蹖 讴賳賳丿貙 鬲賮爻蹖乇 讴賳賳丿. 爻蹖诏賳丕賱賴丕 賲賲讴賳 丕爻鬲 卮丕賲賱 賳賵乇 賵 蹖丕 亘乇 丕孬乇 鬲賲丕爻 亘丕卮賳丿貙 丕賲丕 丕睾賱亘 賲賵丕丿 卮蹖賲蹖丕蹖蹖 賴爻鬲賳丿. 丿乇 丕蹖賳 噩賱爻賴貙 賲丕 亘乇 賲讴丕賳蹖爻賲 賴丕蹖 丕氐賱蹖 丕賳鬲賯丕賱 倬蹖丕賲 賲鬲賲乇讴夭 賲蹖鈥屫促堐屬� 讴賴 爻賱賵賱鈥屬囏� 爻蹖诏賳丕賱鈥屬囏й� 卮蹖賲蹖丕蹖蹖 丕乇爻丕賱 卮丿賴 丕夭 爻賱賵賱鈥屬囏й� 丿蹖诏乇 乇丕 丿乇蹖丕賮鬲貙 倬乇丿丕夭卮 賵 倬丕爻禺 賲蹖鈥屫囐嗀�.
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Cells can signal to each other and interpret the signals they receive from other cells and the environment. The signals may include light and touch, but are most often chemicals. In this session, we focus on the main mechanisms by which cells receive, process, and respond to chemical signals sent from other cells.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1617-cellcommunication-210117110429-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 爻賱賵賱賴丕 賲蹖鈥屫堌з嗁嗀� 亘賴 蹖讴丿蹖诏乇 爻蹖诏賳丕賱 亘丿賴賳丿 賵 爻蹖诏賳丕賱賴丕蹖蹖 乇丕 讴賴 丕夭 爻賱賵賱賴丕蹖 丿蹖诏乇 賵 賲丨蹖胤 丿乇蹖丕賮鬲 賲蹖 讴賳賳丿貙 鬲賮爻蹖乇 讴賳賳丿. 爻蹖诏賳丕賱賴丕 賲賲讴賳 丕爻鬲 卮丕賲賱 賳賵乇 賵 蹖丕 亘乇 丕孬乇 鬲賲丕爻 亘丕卮賳丿貙 丕賲丕 丕睾賱亘 賲賵丕丿 卮蹖賲蹖丕蹖蹖 賴爻鬲賳丿. 丿乇 丕蹖賳 噩賱爻賴貙 賲丕 亘乇 賲讴丕賳蹖爻賲 賴丕蹖 丕氐賱蹖 丕賳鬲賯丕賱 倬蹖丕賲 賲鬲賲乇讴夭 賲蹖鈥屫促堐屬� 讴賴 爻賱賵賱鈥屬囏� 爻蹖诏賳丕賱鈥屬囏й� 卮蹖賲蹖丕蹖蹖 丕乇爻丕賱 卮丿賴 丕夭 爻賱賵賱鈥屬囏й� 丿蹖诏乇 乇丕 丿乇蹖丕賮鬲貙 倬乇丿丕夭卮 賵 倬丕爻禺 賲蹖鈥屫囐嗀�.
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Cells can signal to each other and interpret the signals they receive from other cells and the environment. The signals may include light and touch, but are most often chemicals. In this session, we focus on the main mechanisms by which cells receive, process, and respond to chemical signals sent from other cells.
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680https://cdn.slidesharecdn.com/ss_thumbnails/1617-cellcommunication-210117110429-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted010 - Photosynthesis
/slideshow/10-photosynthesis-240870168/240870168
14-17-photosynthesis-partsiii-210103203331 丕賳乇跇蹖 乇賵蹖 夭賲蹖賳 鬲賵爻胤 禺賵乇卮蹖丿 鬲兀賲蹖賳 賲蹖 卮賵丿. 诏蹖丕賴丕賳 賵 丕乇诏丕賳蹖爻賲鈥屬囏й� 禺丕氐 丕夭 胤乇蹖賯 賮乇丌蹖賳丿蹖 讴賴 賮鬲賵爻賳鬲夭 賳丕賲蹖丿賴 賲蹖鈥屫促堌� 丕賳乇跇蹖 禺賵乇卮蹖丿 乇丕 鬲賵爻胤 丕賳丿丕賲讴鈥屬囏й� 爻賱賵賱蹖 賵蹖跇賴鈥屫й� 亘賴 賳丕賲 讴賱乇賵倬賱丕爻鬲 亘賴 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 鬲亘丿蹖賱 賲蹖 讴賳賳丿. 丿乇 丕蹖賳 賮氐賱 貙 賲賳 丿乇 賲賵乇丿 丕蹖賳 乇賵賳丿 亘賴 胤賵乇 賲賮氐賱 氐丨亘鬲 禺賵丕賴賲 讴乇丿.
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Life on earth is powered by sun. Plants and specific organisms convert the energy of the sun by specialized cellular organelles called chloroplasts into organic molecules through a process which is called photosynthesis. In this chapter, I will talk about this process in details.
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丕賳乇跇蹖 乇賵蹖 夭賲蹖賳 鬲賵爻胤 禺賵乇卮蹖丿 鬲兀賲蹖賳 賲蹖 卮賵丿. 诏蹖丕賴丕賳 賵 丕乇诏丕賳蹖爻賲鈥屬囏й� 禺丕氐 丕夭 胤乇蹖賯 賮乇丌蹖賳丿蹖 讴賴 賮鬲賵爻賳鬲夭 賳丕賲蹖丿賴 賲蹖鈥屫促堌� 丕賳乇跇蹖 禺賵乇卮蹖丿 乇丕 鬲賵爻胤 丕賳丿丕賲讴鈥屬囏й� 爻賱賵賱蹖 賵蹖跇賴鈥屫й� 亘賴 賳丕賲 讴賱乇賵倬賱丕爻鬲 亘賴 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 鬲亘丿蹖賱 賲蹖 讴賳賳丿. 丿乇 丕蹖賳 賮氐賱 貙 賲賳 丿乇 賲賵乇丿 丕蹖賳 乇賵賳丿 亘賴 胤賵乇 賲賮氐賱 氐丨亘鬲 禺賵丕賴賲 讴乇丿.
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Life on earth is powered by sun. Plants and specific organisms convert the energy of the sun by specialized cellular organelles called chloroplasts into organic molecules through a process which is called photosynthesis. In this chapter, I will talk about this process in details.
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Sun, 03 Jan 2021 20:33:31 GMT/slideshow/10-photosynthesis-240870168/240870168AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)10 - PhotosynthesisAhmadVKashaniMSc丕賳乇跇蹖 乇賵蹖 夭賲蹖賳 鬲賵爻胤 禺賵乇卮蹖丿 鬲兀賲蹖賳 賲蹖 卮賵丿. 诏蹖丕賴丕賳 賵 丕乇诏丕賳蹖爻賲鈥屬囏й� 禺丕氐 丕夭 胤乇蹖賯 賮乇丌蹖賳丿蹖 讴賴 賮鬲賵爻賳鬲夭 賳丕賲蹖丿賴 賲蹖鈥屫促堌� 丕賳乇跇蹖 禺賵乇卮蹖丿 乇丕 鬲賵爻胤 丕賳丿丕賲讴鈥屬囏й� 爻賱賵賱蹖 賵蹖跇賴鈥屫й� 亘賴 賳丕賲 讴賱乇賵倬賱丕爻鬲 亘賴 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 鬲亘丿蹖賱 賲蹖 讴賳賳丿. 丿乇 丕蹖賳 賮氐賱 貙 賲賳 丿乇 賲賵乇丿 丕蹖賳 乇賵賳丿 亘賴 胤賵乇 賲賮氐賱 氐丨亘鬲 禺賵丕賴賲 讴乇丿.
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Life on earth is powered by sun. Plants and specific organisms convert the energy of the sun by specialized cellular organelles called chloroplasts into organic molecules through a process which is called photosynthesis. In this chapter, I will talk about this process in details.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/14-17-photosynthesis-partsiii-210103203331-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 丕賳乇跇蹖 乇賵蹖 夭賲蹖賳 鬲賵爻胤 禺賵乇卮蹖丿 鬲兀賲蹖賳 賲蹖 卮賵丿. 诏蹖丕賴丕賳 賵 丕乇诏丕賳蹖爻賲鈥屬囏й� 禺丕氐 丕夭 胤乇蹖賯 賮乇丌蹖賳丿蹖 讴賴 賮鬲賵爻賳鬲夭 賳丕賲蹖丿賴 賲蹖鈥屫促堌� 丕賳乇跇蹖 禺賵乇卮蹖丿 乇丕 鬲賵爻胤 丕賳丿丕賲讴鈥屬囏й� 爻賱賵賱蹖 賵蹖跇賴鈥屫й� 亘賴 賳丕賲 讴賱乇賵倬賱丕爻鬲 亘賴 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 鬲亘丿蹖賱 賲蹖 讴賳賳丿. 丿乇 丕蹖賳 賮氐賱 貙 賲賳 丿乇 賲賵乇丿 丕蹖賳 乇賵賳丿 亘賴 胤賵乇 賲賮氐賱 氐丨亘鬲 禺賵丕賴賲 讴乇丿.
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Life on earth is powered by sun. Plants and specific organisms convert the energy of the sun by specialized cellular organelles called chloroplasts into organic molecules through a process which is called photosynthesis. In this chapter, I will talk about this process in details.
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1870https://cdn.slidesharecdn.com/ss_thumbnails/14-17-photosynthesis-partsiii-210103203331-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted09 - Metabolism and Transfering Energy - Part Two
/slideshow/metabolism-and-transfering-energy-part-two/240604481
1415-cellularrespirationfermentation-201227103148 爻賱賵賱賴丕蹖 夭賳丿賴 亘乇丕蹖 丕賳噩丕賲 亘爻蹖丕乇蹖 丕夭 賵馗丕蹖賮 禺賵丿 亘賴 丕賳鬲賯丕賱 丕賳乇跇蹖 丕夭 賲賳丕亘毓 禺丕乇噩蹖 賳蹖丕夭 丿丕乇賳丿. 賴賲賴 丕乇诏丕賳蹖爻賲鈥屬囏� 亘丕蹖丿 丕夭 胤乇蹖賯 賮鬲賵爻賳鬲夭 賵 鬲賳賮爻 爻賱賵賱蹖 丕蹖賳 丕賳乇跇蹖 乇丕 丕夭 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 賲賵噩賵丿 丿乇睾匕丕 亘丿爻鬲 丌賵乇賳丿. 鬲賳賮爻 亘丕 丕爻鬲賮丕丿賴 丕夭 丕讴爻蹖跇賳 賵 鬲賵賱蹖丿 ATP貙 亘丕毓孬 卮讴爻鬲賳 丕蹖賳 爻賵禺鬲 賲蹖鈥屫促堌�. 賲賵丕丿 夭丕卅丿 丕蹖賳 賳賵毓 鬲賳賮爻貙 丿蹖 丕讴爻蹖丿 讴乇亘賳 賵 丌亘貙 賲賵丕丿 丕賵賱蹖賴 賮鬲賵爻賳鬲夭 賴爻鬲賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲賳 爻毓蹖 賲蹖 讴賳賲 趩诏賵賳诏蹖 亘乇丿丕卮鬲 爻賱賵賱鈥屬囏� 丕夭 丕賳乇跇蹖 匕禺蹖乇賴 卮丿賴 丿乇 賲賵賱讴賵賱賴丕蹖 丌賱蹖 賵 丕爻鬲賮丕丿賴 丕夭 丌賳 亘乇丕蹖 鬲賵賱蹖丿 ATP 丕夭 胤乇蹖賯 鬲賳賮爻 爻賱賵賱蹖 乇丕 鬲賵囟蹖丨 丿賴賲.
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Living cells require transfusions of energy from outside sources to perform their many tasks. All organism need to obtain this energy from organic molecules of food through photosynthesis and cellular respiration. Respiration breaks this fuel down, using oxygen and generating ATP. The waste products of this type of respiration, carbon dioxide and water, are the raw materials for photosynthesis. In this slide, I try to explain how cells harvest this energy stored in organic molecules and used it to generate ATP through cellular respiration.
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爻賱賵賱賴丕蹖 夭賳丿賴 亘乇丕蹖 丕賳噩丕賲 亘爻蹖丕乇蹖 丕夭 賵馗丕蹖賮 禺賵丿 亘賴 丕賳鬲賯丕賱 丕賳乇跇蹖 丕夭 賲賳丕亘毓 禺丕乇噩蹖 賳蹖丕夭 丿丕乇賳丿. 賴賲賴 丕乇诏丕賳蹖爻賲鈥屬囏� 亘丕蹖丿 丕夭 胤乇蹖賯 賮鬲賵爻賳鬲夭 賵 鬲賳賮爻 爻賱賵賱蹖 丕蹖賳 丕賳乇跇蹖 乇丕 丕夭 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 賲賵噩賵丿 丿乇睾匕丕 亘丿爻鬲 丌賵乇賳丿. 鬲賳賮爻 亘丕 丕爻鬲賮丕丿賴 丕夭 丕讴爻蹖跇賳 賵 鬲賵賱蹖丿 ATP貙 亘丕毓孬 卮讴爻鬲賳 丕蹖賳 爻賵禺鬲 賲蹖鈥屫促堌�. 賲賵丕丿 夭丕卅丿 丕蹖賳 賳賵毓 鬲賳賮爻貙 丿蹖 丕讴爻蹖丿 讴乇亘賳 賵 丌亘貙 賲賵丕丿 丕賵賱蹖賴 賮鬲賵爻賳鬲夭 賴爻鬲賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲賳 爻毓蹖 賲蹖 讴賳賲 趩诏賵賳诏蹖 亘乇丿丕卮鬲 爻賱賵賱鈥屬囏� 丕夭 丕賳乇跇蹖 匕禺蹖乇賴 卮丿賴 丿乇 賲賵賱讴賵賱賴丕蹖 丌賱蹖 賵 丕爻鬲賮丕丿賴 丕夭 丌賳 亘乇丕蹖 鬲賵賱蹖丿 ATP 丕夭 胤乇蹖賯 鬲賳賮爻 爻賱賵賱蹖 乇丕 鬲賵囟蹖丨 丿賴賲.
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Living cells require transfusions of energy from outside sources to perform their many tasks. All organism need to obtain this energy from organic molecules of food through photosynthesis and cellular respiration. Respiration breaks this fuel down, using oxygen and generating ATP. The waste products of this type of respiration, carbon dioxide and water, are the raw materials for photosynthesis. In this slide, I try to explain how cells harvest this energy stored in organic molecules and used it to generate ATP through cellular respiration.
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Sun, 27 Dec 2020 10:31:48 GMT/slideshow/metabolism-and-transfering-energy-part-two/240604481AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)9 - Metabolism and Transfering Energy - Part TwoAhmadVKashaniMSc爻賱賵賱賴丕蹖 夭賳丿賴 亘乇丕蹖 丕賳噩丕賲 亘爻蹖丕乇蹖 丕夭 賵馗丕蹖賮 禺賵丿 亘賴 丕賳鬲賯丕賱 丕賳乇跇蹖 丕夭 賲賳丕亘毓 禺丕乇噩蹖 賳蹖丕夭 丿丕乇賳丿. 賴賲賴 丕乇诏丕賳蹖爻賲鈥屬囏� 亘丕蹖丿 丕夭 胤乇蹖賯 賮鬲賵爻賳鬲夭 賵 鬲賳賮爻 爻賱賵賱蹖 丕蹖賳 丕賳乇跇蹖 乇丕 丕夭 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 賲賵噩賵丿 丿乇睾匕丕 亘丿爻鬲 丌賵乇賳丿. 鬲賳賮爻 亘丕 丕爻鬲賮丕丿賴 丕夭 丕讴爻蹖跇賳 賵 鬲賵賱蹖丿 ATP貙 亘丕毓孬 卮讴爻鬲賳 丕蹖賳 爻賵禺鬲 賲蹖鈥屫促堌�. 賲賵丕丿 夭丕卅丿 丕蹖賳 賳賵毓 鬲賳賮爻貙 丿蹖 丕讴爻蹖丿 讴乇亘賳 賵 丌亘貙 賲賵丕丿 丕賵賱蹖賴 賮鬲賵爻賳鬲夭 賴爻鬲賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲賳 爻毓蹖 賲蹖 讴賳賲 趩诏賵賳诏蹖 亘乇丿丕卮鬲 爻賱賵賱鈥屬囏� 丕夭 丕賳乇跇蹖 匕禺蹖乇賴 卮丿賴 丿乇 賲賵賱讴賵賱賴丕蹖 丌賱蹖 賵 丕爻鬲賮丕丿賴 丕夭 丌賳 亘乇丕蹖 鬲賵賱蹖丿 ATP 丕夭 胤乇蹖賯 鬲賳賮爻 爻賱賵賱蹖 乇丕 鬲賵囟蹖丨 丿賴賲.
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Living cells require transfusions of energy from outside sources to perform their many tasks. All organism need to obtain this energy from organic molecules of food through photosynthesis and cellular respiration. Respiration breaks this fuel down, using oxygen and generating ATP. The waste products of this type of respiration, carbon dioxide and water, are the raw materials for photosynthesis. In this slide, I try to explain how cells harvest this energy stored in organic molecules and used it to generate ATP through cellular respiration.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1415-cellularrespirationfermentation-201227103148-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 爻賱賵賱賴丕蹖 夭賳丿賴 亘乇丕蹖 丕賳噩丕賲 亘爻蹖丕乇蹖 丕夭 賵馗丕蹖賮 禺賵丿 亘賴 丕賳鬲賯丕賱 丕賳乇跇蹖 丕夭 賲賳丕亘毓 禺丕乇噩蹖 賳蹖丕夭 丿丕乇賳丿. 賴賲賴 丕乇诏丕賳蹖爻賲鈥屬囏� 亘丕蹖丿 丕夭 胤乇蹖賯 賮鬲賵爻賳鬲夭 賵 鬲賳賮爻 爻賱賵賱蹖 丕蹖賳 丕賳乇跇蹖 乇丕 丕夭 賲賵賱讴賵賱 賴丕蹖 丌賱蹖 賲賵噩賵丿 丿乇睾匕丕 亘丿爻鬲 丌賵乇賳丿. 鬲賳賮爻 亘丕 丕爻鬲賮丕丿賴 丕夭 丕讴爻蹖跇賳 賵 鬲賵賱蹖丿 ATP貙 亘丕毓孬 卮讴爻鬲賳 丕蹖賳 爻賵禺鬲 賲蹖鈥屫促堌�. 賲賵丕丿 夭丕卅丿 丕蹖賳 賳賵毓 鬲賳賮爻貙 丿蹖 丕讴爻蹖丿 讴乇亘賳 賵 丌亘貙 賲賵丕丿 丕賵賱蹖賴 賮鬲賵爻賳鬲夭 賴爻鬲賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲賳 爻毓蹖 賲蹖 讴賳賲 趩诏賵賳诏蹖 亘乇丿丕卮鬲 爻賱賵賱鈥屬囏� 丕夭 丕賳乇跇蹖 匕禺蹖乇賴 卮丿賴 丿乇 賲賵賱讴賵賱賴丕蹖 丌賱蹖 賵 丕爻鬲賮丕丿賴 丕夭 丌賳 亘乇丕蹖 鬲賵賱蹖丿 ATP 丕夭 胤乇蹖賯 鬲賳賮爻 爻賱賵賱蹖 乇丕 鬲賵囟蹖丨 丿賴賲.
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Living cells require transfusions of energy from outside sources to perform their many tasks. All organism need to obtain this energy from organic molecules of food through photosynthesis and cellular respiration. Respiration breaks this fuel down, using oxygen and generating ATP. The waste products of this type of respiration, carbon dioxide and water, are the raw materials for photosynthesis. In this slide, I try to explain how cells harvest this energy stored in organic molecules and used it to generate ATP through cellular respiration.
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1370https://cdn.slidesharecdn.com/ss_thumbnails/1415-cellularrespirationfermentation-201227103148-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted08 - Metabolism and Transfering Energy - Part One
/slideshow/metabolism-and-transfering-energy-part-one/240371945
1213-metabolismtransferingenergy-parti-201221074805 爻賱賵賱 夭賳丿賴 蹖讴 讴丕乇禺丕賳賴 卮蹖賲蹖丕蹖蹖 賲蹖讴乇賵爻讴賵倬蹖 丕爻鬲 讴賴 賴夭丕乇丕賳 賵丕讴賳卮 丿乇 丕蹖賳 賮囟丕 丕鬲賮丕賯 賲蹖鈥屫з佖�. 丕夭 賳馗乇 倬蹖趩蹖丿诏蹖貙 讴丕乇丕蹖蹖 賵 賵丕讴賳卮 倬匕蹖乇蹖 丿乇 亘乇丕亘乇 鬲睾蹖蹖乇丕鬲 馗乇蹖賮貙 爻賱賵賱 亘賴 毓賳賵丕賳 蹖讴 讴丕乇禺丕賳賴 鬲賵賱蹖丿 賲賵丕丿 卮蹖賲蹖丕蹖蹖 亘蹖 賳馗蹖乇 丕爻鬲. 賲賮丕賴蹖賲 賲鬲丕亘賵賱蹖爻賲 讴賴 丿乇 丕蹖賳 丕乇丕卅賴 蹖丕丿 賲蹖 诏蹖乇蹖丿 亘賴 卮賲丕 讴賲讴 賲蹖 讴賳丿 鬲丕 丿乇讴 丿乇爻鬲蹖 丕夭 趩诏賵賳诏蹖 噩乇蹖丕賳 賲丕丿賴 賵 丕賳乇跇蹖 丿乇 賮乇丌蹖賳丿賴丕蹖 夭蹖爻鬲蹖 丿丕卮鬲賴 亘丕卮蹖丿 賵 亘丕 趩诏賵賳诏蹖 鬲賳馗蹖賲 丌賳 丌卮賳丕 卮賵蹖丿.
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The living cell is a chemical factory in miniature, where thousands of reactions occur within a microscopic space. In its complexity, its efficiency, and its responsiveness to subtle changes, the cell is peerless as a chemical factory. The concepts of metabolism that you learn in this presentation will help you understand how matter and energy flow during life鈥檚 processes and how that flow is regulated.
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爻賱賵賱 夭賳丿賴 蹖讴 讴丕乇禺丕賳賴 卮蹖賲蹖丕蹖蹖 賲蹖讴乇賵爻讴賵倬蹖 丕爻鬲 讴賴 賴夭丕乇丕賳 賵丕讴賳卮 丿乇 丕蹖賳 賮囟丕 丕鬲賮丕賯 賲蹖鈥屫з佖�. 丕夭 賳馗乇 倬蹖趩蹖丿诏蹖貙 讴丕乇丕蹖蹖 賵 賵丕讴賳卮 倬匕蹖乇蹖 丿乇 亘乇丕亘乇 鬲睾蹖蹖乇丕鬲 馗乇蹖賮貙 爻賱賵賱 亘賴 毓賳賵丕賳 蹖讴 讴丕乇禺丕賳賴 鬲賵賱蹖丿 賲賵丕丿 卮蹖賲蹖丕蹖蹖 亘蹖 賳馗蹖乇 丕爻鬲. 賲賮丕賴蹖賲 賲鬲丕亘賵賱蹖爻賲 讴賴 丿乇 丕蹖賳 丕乇丕卅賴 蹖丕丿 賲蹖 诏蹖乇蹖丿 亘賴 卮賲丕 讴賲讴 賲蹖 讴賳丿 鬲丕 丿乇讴 丿乇爻鬲蹖 丕夭 趩诏賵賳诏蹖 噩乇蹖丕賳 賲丕丿賴 賵 丕賳乇跇蹖 丿乇 賮乇丌蹖賳丿賴丕蹖 夭蹖爻鬲蹖 丿丕卮鬲賴 亘丕卮蹖丿 賵 亘丕 趩诏賵賳诏蹖 鬲賳馗蹖賲 丌賳 丌卮賳丕 卮賵蹖丿.
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The living cell is a chemical factory in miniature, where thousands of reactions occur within a microscopic space. In its complexity, its efficiency, and its responsiveness to subtle changes, the cell is peerless as a chemical factory. The concepts of metabolism that you learn in this presentation will help you understand how matter and energy flow during life鈥檚 processes and how that flow is regulated.
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Mon, 21 Dec 2020 07:48:05 GMT/slideshow/metabolism-and-transfering-energy-part-one/240371945AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)8 - Metabolism and Transfering Energy - Part OneAhmadVKashaniMSc爻賱賵賱 夭賳丿賴 蹖讴 讴丕乇禺丕賳賴 卮蹖賲蹖丕蹖蹖 賲蹖讴乇賵爻讴賵倬蹖 丕爻鬲 讴賴 賴夭丕乇丕賳 賵丕讴賳卮 丿乇 丕蹖賳 賮囟丕 丕鬲賮丕賯 賲蹖鈥屫з佖�. 丕夭 賳馗乇 倬蹖趩蹖丿诏蹖貙 讴丕乇丕蹖蹖 賵 賵丕讴賳卮 倬匕蹖乇蹖 丿乇 亘乇丕亘乇 鬲睾蹖蹖乇丕鬲 馗乇蹖賮貙 爻賱賵賱 亘賴 毓賳賵丕賳 蹖讴 讴丕乇禺丕賳賴 鬲賵賱蹖丿 賲賵丕丿 卮蹖賲蹖丕蹖蹖 亘蹖 賳馗蹖乇 丕爻鬲. 賲賮丕賴蹖賲 賲鬲丕亘賵賱蹖爻賲 讴賴 丿乇 丕蹖賳 丕乇丕卅賴 蹖丕丿 賲蹖 诏蹖乇蹖丿 亘賴 卮賲丕 讴賲讴 賲蹖 讴賳丿 鬲丕 丿乇讴 丿乇爻鬲蹖 丕夭 趩诏賵賳诏蹖 噩乇蹖丕賳 賲丕丿賴 賵 丕賳乇跇蹖 丿乇 賮乇丌蹖賳丿賴丕蹖 夭蹖爻鬲蹖 丿丕卮鬲賴 亘丕卮蹖丿 賵 亘丕 趩诏賵賳诏蹖 鬲賳馗蹖賲 丌賳 丌卮賳丕 卮賵蹖丿.
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The living cell is a chemical factory in miniature, where thousands of reactions occur within a microscopic space. In its complexity, its efficiency, and its responsiveness to subtle changes, the cell is peerless as a chemical factory. The concepts of metabolism that you learn in this presentation will help you understand how matter and energy flow during life鈥檚 processes and how that flow is regulated.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1213-metabolismtransferingenergy-parti-201221074805-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 爻賱賵賱 夭賳丿賴 蹖讴 讴丕乇禺丕賳賴 卮蹖賲蹖丕蹖蹖 賲蹖讴乇賵爻讴賵倬蹖 丕爻鬲 讴賴 賴夭丕乇丕賳 賵丕讴賳卮 丿乇 丕蹖賳 賮囟丕 丕鬲賮丕賯 賲蹖鈥屫з佖�. 丕夭 賳馗乇 倬蹖趩蹖丿诏蹖貙 讴丕乇丕蹖蹖 賵 賵丕讴賳卮 倬匕蹖乇蹖 丿乇 亘乇丕亘乇 鬲睾蹖蹖乇丕鬲 馗乇蹖賮貙 爻賱賵賱 亘賴 毓賳賵丕賳 蹖讴 讴丕乇禺丕賳賴 鬲賵賱蹖丿 賲賵丕丿 卮蹖賲蹖丕蹖蹖 亘蹖 賳馗蹖乇 丕爻鬲. 賲賮丕賴蹖賲 賲鬲丕亘賵賱蹖爻賲 讴賴 丿乇 丕蹖賳 丕乇丕卅賴 蹖丕丿 賲蹖 诏蹖乇蹖丿 亘賴 卮賲丕 讴賲讴 賲蹖 讴賳丿 鬲丕 丿乇讴 丿乇爻鬲蹖 丕夭 趩诏賵賳诏蹖 噩乇蹖丕賳 賲丕丿賴 賵 丕賳乇跇蹖 丿乇 賮乇丌蹖賳丿賴丕蹖 夭蹖爻鬲蹖 丿丕卮鬲賴 亘丕卮蹖丿 賵 亘丕 趩诏賵賳诏蹖 鬲賳馗蹖賲 丌賳 丌卮賳丕 卮賵蹖丿.
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The living cell is a chemical factory in miniature, where thousands of reactions occur within a microscopic space. In its complexity, its efficiency, and its responsiveness to subtle changes, the cell is peerless as a chemical factory. The concepts of metabolism that you learn in this presentation will help you understand how matter and energy flow during life鈥檚 processes and how that flow is regulated.
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850https://cdn.slidesharecdn.com/ss_thumbnails/1213-metabolismtransferingenergy-parti-201221074805-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted07 - Membrane Structue and Function
/slideshow/membrane-structue-and-function/240065591
1011-membranestructueandfunction-201213121845 丿乇 夭蹖爻鬲 卮賳丕爻蹖 讴賲倬亘賱 亘丕 氐乇丕丨鬲 賵 乇賵卮賳蹖 匕讴乇 卮丿賴 丕爻鬲: "睾卮丕蹖 倬賱丕爻賲丕蹖蹖 讴賴 爻賱賵賱 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲 乇丕 賲蹖鈥屫堌з� 亘賴 毓賳賵丕賳 賱亘賴 丨蹖丕鬲 丿丕賳爻鬲貙 賲乇夭蹖 讴賴 爻賱賵賱 夭賳丿賴 乇丕 丕夭 賲丨蹖胤 丕胤乇丕賮 禺賵丿 噩丿丕 賲蹖鈥屭┵嗀�." 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲丕 爻毓蹖 賲蹖鈥屭┵嗃屬� 蹖丕丿 亘诏蹖乇蹖賲 讴賴 趩诏賵賳賴 睾卮丕蹖 爻賱賵賱蹖貙 毓亘賵乇 賲賵丕丿 賲禺鬲賱賮 乇丕 亘丕 丕賳丿丕夭賴鈥屬囏� 賵 賲丕賴蹖鬲 賲禺鬲賱賮 讴賳鬲乇賱 賲蹖鈥屭┵嗀�.
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It is neatly mentioned in Campbell Biology: 鈥淭he plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings.鈥� In this slide, we try to learn how cellular membrane controls the passage of different substances of different size and nature.
]]>
丿乇 夭蹖爻鬲 卮賳丕爻蹖 讴賲倬亘賱 亘丕 氐乇丕丨鬲 賵 乇賵卮賳蹖 匕讴乇 卮丿賴 丕爻鬲: "睾卮丕蹖 倬賱丕爻賲丕蹖蹖 讴賴 爻賱賵賱 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲 乇丕 賲蹖鈥屫堌з� 亘賴 毓賳賵丕賳 賱亘賴 丨蹖丕鬲 丿丕賳爻鬲貙 賲乇夭蹖 讴賴 爻賱賵賱 夭賳丿賴 乇丕 丕夭 賲丨蹖胤 丕胤乇丕賮 禺賵丿 噩丿丕 賲蹖鈥屭┵嗀�." 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲丕 爻毓蹖 賲蹖鈥屭┵嗃屬� 蹖丕丿 亘诏蹖乇蹖賲 讴賴 趩诏賵賳賴 睾卮丕蹖 爻賱賵賱蹖貙 毓亘賵乇 賲賵丕丿 賲禺鬲賱賮 乇丕 亘丕 丕賳丿丕夭賴鈥屬囏� 賵 賲丕賴蹖鬲 賲禺鬲賱賮 讴賳鬲乇賱 賲蹖鈥屭┵嗀�.
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It is neatly mentioned in Campbell Biology: 鈥淭he plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings.鈥� In this slide, we try to learn how cellular membrane controls the passage of different substances of different size and nature.
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Sun, 13 Dec 2020 12:18:45 GMT/slideshow/membrane-structue-and-function/240065591AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)7 - Membrane Structue and FunctionAhmadVKashaniMSc丿乇 夭蹖爻鬲 卮賳丕爻蹖 讴賲倬亘賱 亘丕 氐乇丕丨鬲 賵 乇賵卮賳蹖 匕讴乇 卮丿賴 丕爻鬲: "睾卮丕蹖 倬賱丕爻賲丕蹖蹖 讴賴 爻賱賵賱 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲 乇丕 賲蹖鈥屫堌з� 亘賴 毓賳賵丕賳 賱亘賴 丨蹖丕鬲 丿丕賳爻鬲貙 賲乇夭蹖 讴賴 爻賱賵賱 夭賳丿賴 乇丕 丕夭 賲丨蹖胤 丕胤乇丕賮 禺賵丿 噩丿丕 賲蹖鈥屭┵嗀�." 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲丕 爻毓蹖 賲蹖鈥屭┵嗃屬� 蹖丕丿 亘诏蹖乇蹖賲 讴賴 趩诏賵賳賴 睾卮丕蹖 爻賱賵賱蹖貙 毓亘賵乇 賲賵丕丿 賲禺鬲賱賮 乇丕 亘丕 丕賳丿丕夭賴鈥屬囏� 賵 賲丕賴蹖鬲 賲禺鬲賱賮 讴賳鬲乇賱 賲蹖鈥屭┵嗀�.
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It is neatly mentioned in Campbell Biology: 鈥淭he plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings.鈥� In this slide, we try to learn how cellular membrane controls the passage of different substances of different size and nature.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1011-membranestructueandfunction-201213121845-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 丿乇 夭蹖爻鬲 卮賳丕爻蹖 讴賲倬亘賱 亘丕 氐乇丕丨鬲 賵 乇賵卮賳蹖 匕讴乇 卮丿賴 丕爻鬲: "睾卮丕蹖 倬賱丕爻賲丕蹖蹖 讴賴 爻賱賵賱 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲 乇丕 賲蹖鈥屫堌з� 亘賴 毓賳賵丕賳 賱亘賴 丨蹖丕鬲 丿丕賳爻鬲貙 賲乇夭蹖 讴賴 爻賱賵賱 夭賳丿賴 乇丕 丕夭 賲丨蹖胤 丕胤乇丕賮 禺賵丿 噩丿丕 賲蹖鈥屭┵嗀�." 丿乇 丕蹖賳 丕爻賱丕蹖丿貙 賲丕 爻毓蹖 賲蹖鈥屭┵嗃屬� 蹖丕丿 亘诏蹖乇蹖賲 讴賴 趩诏賵賳賴 睾卮丕蹖 爻賱賵賱蹖貙 毓亘賵乇 賲賵丕丿 賲禺鬲賱賮 乇丕 亘丕 丕賳丿丕夭賴鈥屬囏� 賵 賲丕賴蹖鬲 賲禺鬲賱賮 讴賳鬲乇賱 賲蹖鈥屭┵嗀�.
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It is neatly mentioned in Campbell Biology: 鈥淭he plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings.鈥� In this slide, we try to learn how cellular membrane controls the passage of different substances of different size and nature.
]]>
1120https://cdn.slidesharecdn.com/ss_thumbnails/1011-membranestructueandfunction-201213121845-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted06 - A tour of the cell - Part Three
/slideshow/a-tour-of-the-cell-part-three/239807706
1011-atourofthecell-partiii-201206111109 丿蹖賵丕乇賴 爻賱賵賱蹖貙 卮讴賱 賵蹖跇鈥屬団€屫й� 丕夭 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 丕爻鬲 讴賴 賴乇 爻賱賵賱 诏蹖丕賴 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲. 丿蹖賵丕乇賴 爻賱賵賱蹖 賲爻卅賵賱 亘爻蹖丕乇蹖 丕夭 禺氐賵氐蹖丕鬲蹖 丕爻鬲 讴賴 爻賱賵賱賴丕蹖 诏蹖丕賴蹖 乇丕 丕夭 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 賲鬲賲丕蹖夭 賲蹖鈥屭┵嗀�. 丿乇 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 丿丕爻鬲丕賳 賲鬲賮丕賵鬲 丕爻鬲! 亘丕賮鬲賴丕蹖 賲禺鬲賱賮 丿丕乇丕蹖 丕噩夭丕 賵 爻丕夭賲丕賳 賲賳丨氐乇 亘賴 賮乇丿 賵 鬲禺氐氐蹖 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 (ECM) 賴爻鬲賳丿貙 讴賴 賴乇 ECM 乇丕 賯丕丿乇 賲蹖鈥屫池ж操嗀� 鬲丕 賳賯卮賴丕蹖 禺丕氐 亘丕賮鬲蹖貙 丕夭 噩賲賱賴 倬卮鬲蹖亘丕賳蹖 爻丕禺鬲丕乇蹖貙 丕賳鬲賯丕賱 賳蹖乇賵賴丕 賵 賮蹖賱鬲乇丕爻蹖賵賳 賲丕讴乇賵賲賵賱讴賵賱蹖 乇丕 丕賳噩丕賲 丿賴丿.
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Cell wall, specialized form of extracellular matrix that surrounds every cell of a plant. The cell wall is responsible for many of the characteristics that distinguish plant cells from animal cells. In animal cells, the story is different! Different tissues have unique and specialized Extracellular Matrix (ECM) components and organization, which enables each ECM to carry out tissue-specific roles, including structural support, the transmission of forces and macromolecular filtration.]]>
丿蹖賵丕乇賴 爻賱賵賱蹖貙 卮讴賱 賵蹖跇鈥屬団€屫й� 丕夭 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 丕爻鬲 讴賴 賴乇 爻賱賵賱 诏蹖丕賴 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲. 丿蹖賵丕乇賴 爻賱賵賱蹖 賲爻卅賵賱 亘爻蹖丕乇蹖 丕夭 禺氐賵氐蹖丕鬲蹖 丕爻鬲 讴賴 爻賱賵賱賴丕蹖 诏蹖丕賴蹖 乇丕 丕夭 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 賲鬲賲丕蹖夭 賲蹖鈥屭┵嗀�. 丿乇 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 丿丕爻鬲丕賳 賲鬲賮丕賵鬲 丕爻鬲! 亘丕賮鬲賴丕蹖 賲禺鬲賱賮 丿丕乇丕蹖 丕噩夭丕 賵 爻丕夭賲丕賳 賲賳丨氐乇 亘賴 賮乇丿 賵 鬲禺氐氐蹖 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 (ECM) 賴爻鬲賳丿貙 讴賴 賴乇 ECM 乇丕 賯丕丿乇 賲蹖鈥屫池ж操嗀� 鬲丕 賳賯卮賴丕蹖 禺丕氐 亘丕賮鬲蹖貙 丕夭 噩賲賱賴 倬卮鬲蹖亘丕賳蹖 爻丕禺鬲丕乇蹖貙 丕賳鬲賯丕賱 賳蹖乇賵賴丕 賵 賮蹖賱鬲乇丕爻蹖賵賳 賲丕讴乇賵賲賵賱讴賵賱蹖 乇丕 丕賳噩丕賲 丿賴丿.
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Cell wall, specialized form of extracellular matrix that surrounds every cell of a plant. The cell wall is responsible for many of the characteristics that distinguish plant cells from animal cells. In animal cells, the story is different! Different tissues have unique and specialized Extracellular Matrix (ECM) components and organization, which enables each ECM to carry out tissue-specific roles, including structural support, the transmission of forces and macromolecular filtration.]]>
Sun, 06 Dec 2020 11:11:08 GMT/slideshow/a-tour-of-the-cell-part-three/239807706AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)6 - A tour of the cell - Part ThreeAhmadVKashaniMSc丿蹖賵丕乇賴 爻賱賵賱蹖貙 卮讴賱 賵蹖跇鈥屬団€屫й� 丕夭 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 丕爻鬲 讴賴 賴乇 爻賱賵賱 诏蹖丕賴 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲. 丿蹖賵丕乇賴 爻賱賵賱蹖 賲爻卅賵賱 亘爻蹖丕乇蹖 丕夭 禺氐賵氐蹖丕鬲蹖 丕爻鬲 讴賴 爻賱賵賱賴丕蹖 诏蹖丕賴蹖 乇丕 丕夭 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 賲鬲賲丕蹖夭 賲蹖鈥屭┵嗀�. 丿乇 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 丿丕爻鬲丕賳 賲鬲賮丕賵鬲 丕爻鬲! 亘丕賮鬲賴丕蹖 賲禺鬲賱賮 丿丕乇丕蹖 丕噩夭丕 賵 爻丕夭賲丕賳 賲賳丨氐乇 亘賴 賮乇丿 賵 鬲禺氐氐蹖 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 (ECM) 賴爻鬲賳丿貙 讴賴 賴乇 ECM 乇丕 賯丕丿乇 賲蹖鈥屫池ж操嗀� 鬲丕 賳賯卮賴丕蹖 禺丕氐 亘丕賮鬲蹖貙 丕夭 噩賲賱賴 倬卮鬲蹖亘丕賳蹖 爻丕禺鬲丕乇蹖貙 丕賳鬲賯丕賱 賳蹖乇賵賴丕 賵 賮蹖賱鬲乇丕爻蹖賵賳 賲丕讴乇賵賲賵賱讴賵賱蹖 乇丕 丕賳噩丕賲 丿賴丿.
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Cell wall, specialized form of extracellular matrix that surrounds every cell of a plant. The cell wall is responsible for many of the characteristics that distinguish plant cells from animal cells. In animal cells, the story is different! Different tissues have unique and specialized Extracellular Matrix (ECM) components and organization, which enables each ECM to carry out tissue-specific roles, including structural support, the transmission of forces and macromolecular filtration.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/1011-atourofthecell-partiii-201206111109-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 丿蹖賵丕乇賴 爻賱賵賱蹖貙 卮讴賱 賵蹖跇鈥屬団€屫й� 丕夭 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 丕爻鬲 讴賴 賴乇 爻賱賵賱 诏蹖丕賴 乇丕 丕丨丕胤賴 讴乇丿賴 丕爻鬲. 丿蹖賵丕乇賴 爻賱賵賱蹖 賲爻卅賵賱 亘爻蹖丕乇蹖 丕夭 禺氐賵氐蹖丕鬲蹖 丕爻鬲 讴賴 爻賱賵賱賴丕蹖 诏蹖丕賴蹖 乇丕 丕夭 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 賲鬲賲丕蹖夭 賲蹖鈥屭┵嗀�. 丿乇 爻賱賵賱賴丕蹖 丨蹖賵丕賳蹖 丿丕爻鬲丕賳 賲鬲賮丕賵鬲 丕爻鬲! 亘丕賮鬲賴丕蹖 賲禺鬲賱賮 丿丕乇丕蹖 丕噩夭丕 賵 爻丕夭賲丕賳 賲賳丨氐乇 亘賴 賮乇丿 賵 鬲禺氐氐蹖 賲丕鬲乇蹖爻 禺丕乇噩 爻賱賵賱蹖 (ECM) 賴爻鬲賳丿貙 讴賴 賴乇 ECM 乇丕 賯丕丿乇 賲蹖鈥屫池ж操嗀� 鬲丕 賳賯卮賴丕蹖 禺丕氐 亘丕賮鬲蹖貙 丕夭 噩賲賱賴 倬卮鬲蹖亘丕賳蹖 爻丕禺鬲丕乇蹖貙 丕賳鬲賯丕賱 賳蹖乇賵賴丕 賵 賮蹖賱鬲乇丕爻蹖賵賳 賲丕讴乇賵賲賵賱讴賵賱蹖 乇丕 丕賳噩丕賲 丿賴丿.
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Cell wall, specialized form of extracellular matrix that surrounds every cell of a plant. The cell wall is responsible for many of the characteristics that distinguish plant cells from animal cells. In animal cells, the story is different! Different tissues have unique and specialized Extracellular Matrix (ECM) components and organization, which enables each ECM to carry out tissue-specific roles, including structural support, the transmission of forces and macromolecular filtration.
]]>
820https://cdn.slidesharecdn.com/ss_thumbnails/1011-atourofthecell-partiii-201206111109-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted05 - A tour of the cell - Part Two
/slideshow/5-a-tour-of-the-cell-part-two/239581141
89-atourofthecell-partii-201129071542 丿乇 乇賵夭賴丕蹖 丕賵賱蹖賴 賲蹖讴乇賵爻讴賵倬 丕賱讴鬲乇賵賳蹖貙 夭蹖爻鬲 卮賳丕爻丕賳 鬲氐賵乇 賲蹖鈥屭┴必嗀� 讴賴 丕賳丿丕賲讴 爻賱賵賱 蹖賵讴丕乇蹖賵鬲蹖 丌夭丕丿丕賳賴 丿乇 爻蹖鬲賵夭賵賱 卮賳丕賵乇 丕爻鬲. 丕賲丕 倬蹖卮乇賮鬲 賴丕蹖 丕賳噩丕賲 卮丿賴 丿乇 鬲讴賳賵賱賵跇蹖 爻丕禺鬲 賲蹖讴乇賵爻讴賵倬鈥屬囏й� 賳賵乇蹖 賵 丕賱讴鬲乇賵賳蹖 賳卮丕賳 丿丕丿賴 丕爻鬲 讴賴 卮亘讴賴鈥屫й� 丕夭 賮蹖亘乇賴丕 丿乇 爻乇丕爻乇 爻蹖鬲賵倬賱丕爻賲 诏爻鬲乇卮 蹖丕賮鬲賴 丕爻鬲 賵 丌賳賴丕 丌賳 乇丕 丕爻讴賱鬲 爻賱賵賱蹖 賳丕賲蹖丿賴 丕賳丿.
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In the early days of electron microscopy, biologists thought that the organelles of a eukaryotic cell floated freely in the cytosol. But improvements in both light microscopy and electron microscopy have revealed that a network of fibers is extended throughout the cytoplasm and they named it the cytoskeleton.
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丿乇 乇賵夭賴丕蹖 丕賵賱蹖賴 賲蹖讴乇賵爻讴賵倬 丕賱讴鬲乇賵賳蹖貙 夭蹖爻鬲 卮賳丕爻丕賳 鬲氐賵乇 賲蹖鈥屭┴必嗀� 讴賴 丕賳丿丕賲讴 爻賱賵賱 蹖賵讴丕乇蹖賵鬲蹖 丌夭丕丿丕賳賴 丿乇 爻蹖鬲賵夭賵賱 卮賳丕賵乇 丕爻鬲. 丕賲丕 倬蹖卮乇賮鬲 賴丕蹖 丕賳噩丕賲 卮丿賴 丿乇 鬲讴賳賵賱賵跇蹖 爻丕禺鬲 賲蹖讴乇賵爻讴賵倬鈥屬囏й� 賳賵乇蹖 賵 丕賱讴鬲乇賵賳蹖 賳卮丕賳 丿丕丿賴 丕爻鬲 讴賴 卮亘讴賴鈥屫й� 丕夭 賮蹖亘乇賴丕 丿乇 爻乇丕爻乇 爻蹖鬲賵倬賱丕爻賲 诏爻鬲乇卮 蹖丕賮鬲賴 丕爻鬲 賵 丌賳賴丕 丌賳 乇丕 丕爻讴賱鬲 爻賱賵賱蹖 賳丕賲蹖丿賴 丕賳丿.
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In the early days of electron microscopy, biologists thought that the organelles of a eukaryotic cell floated freely in the cytosol. But improvements in both light microscopy and electron microscopy have revealed that a network of fibers is extended throughout the cytoplasm and they named it the cytoskeleton.
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Sun, 29 Nov 2020 07:15:42 GMT/slideshow/5-a-tour-of-the-cell-part-two/239581141AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)5 - A tour of the cell - Part TwoAhmadVKashaniMSc丿乇 乇賵夭賴丕蹖 丕賵賱蹖賴 賲蹖讴乇賵爻讴賵倬 丕賱讴鬲乇賵賳蹖貙 夭蹖爻鬲 卮賳丕爻丕賳 鬲氐賵乇 賲蹖鈥屭┴必嗀� 讴賴 丕賳丿丕賲讴 爻賱賵賱 蹖賵讴丕乇蹖賵鬲蹖 丌夭丕丿丕賳賴 丿乇 爻蹖鬲賵夭賵賱 卮賳丕賵乇 丕爻鬲. 丕賲丕 倬蹖卮乇賮鬲 賴丕蹖 丕賳噩丕賲 卮丿賴 丿乇 鬲讴賳賵賱賵跇蹖 爻丕禺鬲 賲蹖讴乇賵爻讴賵倬鈥屬囏й� 賳賵乇蹖 賵 丕賱讴鬲乇賵賳蹖 賳卮丕賳 丿丕丿賴 丕爻鬲 讴賴 卮亘讴賴鈥屫й� 丕夭 賮蹖亘乇賴丕 丿乇 爻乇丕爻乇 爻蹖鬲賵倬賱丕爻賲 诏爻鬲乇卮 蹖丕賮鬲賴 丕爻鬲 賵 丌賳賴丕 丌賳 乇丕 丕爻讴賱鬲 爻賱賵賱蹖 賳丕賲蹖丿賴 丕賳丿.
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In the early days of electron microscopy, biologists thought that the organelles of a eukaryotic cell floated freely in the cytosol. But improvements in both light microscopy and electron microscopy have revealed that a network of fibers is extended throughout the cytoplasm and they named it the cytoskeleton.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/89-atourofthecell-partii-201129071542-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 丿乇 乇賵夭賴丕蹖 丕賵賱蹖賴 賲蹖讴乇賵爻讴賵倬 丕賱讴鬲乇賵賳蹖貙 夭蹖爻鬲 卮賳丕爻丕賳 鬲氐賵乇 賲蹖鈥屭┴必嗀� 讴賴 丕賳丿丕賲讴 爻賱賵賱 蹖賵讴丕乇蹖賵鬲蹖 丌夭丕丿丕賳賴 丿乇 爻蹖鬲賵夭賵賱 卮賳丕賵乇 丕爻鬲. 丕賲丕 倬蹖卮乇賮鬲 賴丕蹖 丕賳噩丕賲 卮丿賴 丿乇 鬲讴賳賵賱賵跇蹖 爻丕禺鬲 賲蹖讴乇賵爻讴賵倬鈥屬囏й� 賳賵乇蹖 賵 丕賱讴鬲乇賵賳蹖 賳卮丕賳 丿丕丿賴 丕爻鬲 讴賴 卮亘讴賴鈥屫й� 丕夭 賮蹖亘乇賴丕 丿乇 爻乇丕爻乇 爻蹖鬲賵倬賱丕爻賲 诏爻鬲乇卮 蹖丕賮鬲賴 丕爻鬲 賵 丌賳賴丕 丌賳 乇丕 丕爻讴賱鬲 爻賱賵賱蹖 賳丕賲蹖丿賴 丕賳丿.
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In the early days of electron microscopy, biologists thought that the organelles of a eukaryotic cell floated freely in the cytosol. But improvements in both light microscopy and electron microscopy have revealed that a network of fibers is extended throughout the cytoplasm and they named it the cytoskeleton.
]]>
540https://cdn.slidesharecdn.com/ss_thumbnails/89-atourofthecell-partii-201129071542-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted04 - A tour of the cell - Part One
/slideshow/a-tour-of-the-cell-part-one/239378390
67-atourofthecell-parti-201122135424 爻賱賵賱鈥屬囏� 亘賴 賴賲丕賳 丕賳丿丕夭賴 丕鬲賲賴丕 丿乇 卮蹖賲蹖貙 亘乇丕蹖 爻蹖爻鬲賲鈥屬囏й� 夭賳丿賴 丕爻丕爻蹖 賴爻鬲賳丿. 賴賲 丕讴賳賵賳 丕賳賵丕毓 賲禺鬲賱賮蹖 丕夭 爻賱賵賱 賴丕 丿乇 亘丿賳 賲丕 讴丕乇 賲蹖鈥屭┵嗁嗀�. 丿乇 胤賵賱 鬲讴丕賲賱貙 爻賱賵賱賴丕 亘賴 乇賵卮賴丕蹖 賲禺鬲賱賮 丕氐賱丕丨 卮丿賴鈥屫з嗀�. 丕诏乇趩賴 爻賱賵賱鈥屬囏� 賲蹖鈥屫堌з嗁嗀� 鬲賮丕賵鬲 丕爻丕爻蹖 亘丕 蹖讴丿蹖诏乇 丿丕卮鬲賴 亘丕卮賳丿貙 丕賲丕 賵蹖跇诏蹖鈥屬囏й� 賲卮鬲乇讴蹖 丿丕乇賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賵 2 賲賵乇丿 亘毓丿蹖貙 賲丕 爻賮乇蹖 亘賴 丿乇賵賳 蹖讴 爻賱賵賱 禺賵丕賴蹖賲 丿丕卮鬲 賵 亘丕 丕噩夭丕蹖 爻丕夭賳丿賴 丌賳 丌卮賳丕 禺賵丕賴蹖賲 卮丿.
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Cells are as fundamental to the living systems of biology as the atom is to chemistry. Many different types of cells are working in our body right now. During the evolution, cells have been modified in many different ways. Although cells can differ substantially from one another, they share common features. In this slide and the next 2 ones, we鈥檒l take a tour inside a cell and become acquainted with its components.
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爻賱賵賱鈥屬囏� 亘賴 賴賲丕賳 丕賳丿丕夭賴 丕鬲賲賴丕 丿乇 卮蹖賲蹖貙 亘乇丕蹖 爻蹖爻鬲賲鈥屬囏й� 夭賳丿賴 丕爻丕爻蹖 賴爻鬲賳丿. 賴賲 丕讴賳賵賳 丕賳賵丕毓 賲禺鬲賱賮蹖 丕夭 爻賱賵賱 賴丕 丿乇 亘丿賳 賲丕 讴丕乇 賲蹖鈥屭┵嗁嗀�. 丿乇 胤賵賱 鬲讴丕賲賱貙 爻賱賵賱賴丕 亘賴 乇賵卮賴丕蹖 賲禺鬲賱賮 丕氐賱丕丨 卮丿賴鈥屫з嗀�. 丕诏乇趩賴 爻賱賵賱鈥屬囏� 賲蹖鈥屫堌з嗁嗀� 鬲賮丕賵鬲 丕爻丕爻蹖 亘丕 蹖讴丿蹖诏乇 丿丕卮鬲賴 亘丕卮賳丿貙 丕賲丕 賵蹖跇诏蹖鈥屬囏й� 賲卮鬲乇讴蹖 丿丕乇賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賵 2 賲賵乇丿 亘毓丿蹖貙 賲丕 爻賮乇蹖 亘賴 丿乇賵賳 蹖讴 爻賱賵賱 禺賵丕賴蹖賲 丿丕卮鬲 賵 亘丕 丕噩夭丕蹖 爻丕夭賳丿賴 丌賳 丌卮賳丕 禺賵丕賴蹖賲 卮丿.
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Cells are as fundamental to the living systems of biology as the atom is to chemistry. Many different types of cells are working in our body right now. During the evolution, cells have been modified in many different ways. Although cells can differ substantially from one another, they share common features. In this slide and the next 2 ones, we鈥檒l take a tour inside a cell and become acquainted with its components.
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Sun, 22 Nov 2020 13:54:24 GMT/slideshow/a-tour-of-the-cell-part-one/239378390AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)4 - A tour of the cell - Part OneAhmadVKashaniMSc爻賱賵賱鈥屬囏� 亘賴 賴賲丕賳 丕賳丿丕夭賴 丕鬲賲賴丕 丿乇 卮蹖賲蹖貙 亘乇丕蹖 爻蹖爻鬲賲鈥屬囏й� 夭賳丿賴 丕爻丕爻蹖 賴爻鬲賳丿. 賴賲 丕讴賳賵賳 丕賳賵丕毓 賲禺鬲賱賮蹖 丕夭 爻賱賵賱 賴丕 丿乇 亘丿賳 賲丕 讴丕乇 賲蹖鈥屭┵嗁嗀�. 丿乇 胤賵賱 鬲讴丕賲賱貙 爻賱賵賱賴丕 亘賴 乇賵卮賴丕蹖 賲禺鬲賱賮 丕氐賱丕丨 卮丿賴鈥屫з嗀�. 丕诏乇趩賴 爻賱賵賱鈥屬囏� 賲蹖鈥屫堌з嗁嗀� 鬲賮丕賵鬲 丕爻丕爻蹖 亘丕 蹖讴丿蹖诏乇 丿丕卮鬲賴 亘丕卮賳丿貙 丕賲丕 賵蹖跇诏蹖鈥屬囏й� 賲卮鬲乇讴蹖 丿丕乇賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賵 2 賲賵乇丿 亘毓丿蹖貙 賲丕 爻賮乇蹖 亘賴 丿乇賵賳 蹖讴 爻賱賵賱 禺賵丕賴蹖賲 丿丕卮鬲 賵 亘丕 丕噩夭丕蹖 爻丕夭賳丿賴 丌賳 丌卮賳丕 禺賵丕賴蹖賲 卮丿.
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Cells are as fundamental to the living systems of biology as the atom is to chemistry. Many different types of cells are working in our body right now. During the evolution, cells have been modified in many different ways. Although cells can differ substantially from one another, they share common features. In this slide and the next 2 ones, we鈥檒l take a tour inside a cell and become acquainted with its components.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/67-atourofthecell-parti-201122135424-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> 爻賱賵賱鈥屬囏� 亘賴 賴賲丕賳 丕賳丿丕夭賴 丕鬲賲賴丕 丿乇 卮蹖賲蹖貙 亘乇丕蹖 爻蹖爻鬲賲鈥屬囏й� 夭賳丿賴 丕爻丕爻蹖 賴爻鬲賳丿. 賴賲 丕讴賳賵賳 丕賳賵丕毓 賲禺鬲賱賮蹖 丕夭 爻賱賵賱 賴丕 丿乇 亘丿賳 賲丕 讴丕乇 賲蹖鈥屭┵嗁嗀�. 丿乇 胤賵賱 鬲讴丕賲賱貙 爻賱賵賱賴丕 亘賴 乇賵卮賴丕蹖 賲禺鬲賱賮 丕氐賱丕丨 卮丿賴鈥屫з嗀�. 丕诏乇趩賴 爻賱賵賱鈥屬囏� 賲蹖鈥屫堌з嗁嗀� 鬲賮丕賵鬲 丕爻丕爻蹖 亘丕 蹖讴丿蹖诏乇 丿丕卮鬲賴 亘丕卮賳丿貙 丕賲丕 賵蹖跇诏蹖鈥屬囏й� 賲卮鬲乇讴蹖 丿丕乇賳丿. 丿乇 丕蹖賳 丕爻賱丕蹖丿 賵 2 賲賵乇丿 亘毓丿蹖貙 賲丕 爻賮乇蹖 亘賴 丿乇賵賳 蹖讴 爻賱賵賱 禺賵丕賴蹖賲 丿丕卮鬲 賵 亘丕 丕噩夭丕蹖 爻丕夭賳丿賴 丌賳 丌卮賳丕 禺賵丕賴蹖賲 卮丿.
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Cells are as fundamental to the living systems of biology as the atom is to chemistry. Many different types of cells are working in our body right now. During the evolution, cells have been modified in many different ways. Although cells can differ substantially from one another, they share common features. In this slide and the next 2 ones, we鈥檒l take a tour inside a cell and become acquainted with its components.
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1350https://cdn.slidesharecdn.com/ss_thumbnails/67-atourofthecell-parti-201122135424-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted03 - Chemical Composition of the Cell - Part 2
/slideshow/chemical-composition-of-the-cell-part-2/239277721
45-chemicalcompositionofthecell-part2-201116093443 This slide introduces the rest of the basic concepts of chemistry that apply to the study of life.]]>
This slide introduces the rest of the basic concepts of chemistry that apply to the study of life.]]>
Mon, 16 Nov 2020 09:34:43 GMT/slideshow/chemical-composition-of-the-cell-part-2/239277721AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)3 - Chemical Composition of the Cell - Part 2AhmadVKashaniMScThis slide introduces the rest of the basic concepts of chemistry that apply to the study of life.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/45-chemicalcompositionofthecell-part2-201116093443-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> This slide introduces the rest of the basic concepts of chemistry that apply to the study of life.
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500https://cdn.slidesharecdn.com/ss_thumbnails/45-chemicalcompositionofthecell-part2-201116093443-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted02 - Chemical Composition of the Cell - part 1
/slideshow/2-chemical-composition-of-the-cell-part-1/239148193
23-chemicalcompositionofthecell-part1-201108103034 This slide tries to show how elements can turn into molecules and then complex structures and further develop into organs for building a living organism.
This slide is adapted from "Campbell Biology" and for further studies, you can refer to the second chapter of the book.
The slide is prepared for freshman Bachelor's students. ]]>
This slide tries to show how elements can turn into molecules and then complex structures and further develop into organs for building a living organism.
This slide is adapted from "Campbell Biology" and for further studies, you can refer to the second chapter of the book.
The slide is prepared for freshman Bachelor's students. ]]>
Sun, 08 Nov 2020 10:30:34 GMT/slideshow/2-chemical-composition-of-the-cell-part-1/239148193AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)2 - Chemical Composition of the Cell - part 1AhmadVKashaniMScThis slide tries to show how elements can turn into molecules and then complex structures and further develop into organs for building a living organism.
This slide is adapted from "Campbell Biology" and for further studies, you can refer to the second chapter of the book.
The slide is prepared for freshman Bachelor's students. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/23-chemicalcompositionofthecell-part1-201108103034-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> This slide tries to show how elements can turn into molecules and then complex structures and further develop into organs for building a living organism.
This slide is adapted from "Campbell Biology" and for further studies, you can refer to the second chapter of the book.
The slide is prepared for freshman Bachelor's students.
]]>
550https://cdn.slidesharecdn.com/ss_thumbnails/23-chemicalcompositionofthecell-part1-201108103034-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted01 - variety of life
/slideshow/1-variety-of-life-239148176/239148176
0-varietyoflife-201108102631 This slide is the first one of a series of slides adapted from the "Campbell Biology" for Bachelor student of science and medicine. In this 狠狠撸 I have tried to briefly talk about taxonomy and the classification of organisms. ]]>
This slide is the first one of a series of slides adapted from the "Campbell Biology" for Bachelor student of science and medicine. In this 狠狠撸 I have tried to briefly talk about taxonomy and the classification of organisms. ]]>
Sun, 08 Nov 2020 10:26:31 GMT/slideshow/1-variety-of-life-239148176/239148176AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc)1 - variety of lifeAhmadVKashaniMScThis slide is the first one of a series of slides adapted from the "Campbell Biology" for Bachelor student of science and medicine. In this 狠狠撸 I have tried to briefly talk about taxonomy and the classification of organisms. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/0-varietyoflife-201108102631-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> This slide is the first one of a series of slides adapted from the "Campbell Biology" for Bachelor student of science and medicine. In this 狠狠撸 I have tried to briefly talk about taxonomy and the classification of organisms.
]]>
2820https://cdn.slidesharecdn.com/ss_thumbnails/0-varietyoflife-201108102631-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0https://public.slidesharecdn.com/v2/images/profile-picture.pngwww.ut.ac.irhttps://cdn.slidesharecdn.com/ss_thumbnails/2425-fromdnatoprotein-partii-220313091456-thumbnail.jpg?width=320&height=320&fit=boundsslideshow/16-from-dna-to-protein-part-ii/25133788116 - From DNA To Prote...https://cdn.slidesharecdn.com/ss_thumbnails/2223-fromdnatoprotein-parti-220117080257-thumbnail.jpg?width=320&height=320&fit=boundsslideshow/15-from-dna-to-protein-part-i/25100617215 - From DNA to Prote...https://cdn.slidesharecdn.com/ss_thumbnails/2021-thechromosomalbasisofinheritance-210526142620-thumbnail.jpg?width=320&height=320&fit=boundsAhmadVKashaniMSc/14-the-chromosomal-basis-of-inheritance-24857213914 - The Chromosomal B...