際際滷shows by User: AhmadVKashaniMSc / http://www.slideshare.net/images/logo.gif 際際滷shows by User: AhmadVKashaniMSc / Sun, 13 Mar 2022 09:14:55 GMT 際際滷Share feed for 際際滷shows by User: AhmadVKashaniMSc 16 - 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. 惘悛惆 惡悋 DNA 悋 惡愆惠惘 惡 惺悋 惡悋 愆悋悽惠 愆惆 愕惠慍 拆惘惠悧悋 惡悋 悋愕惠悋惆 悋慍 擧悋 RNA 悋慍 悋愕惠. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA悋) 惘悋 惆悋惠 擧惆. 悛悽惘 惘忰 惡悋 悋 擧 拆惘惠悧悋 惘悋 擧惆 擧惆 惠惘悴 悋愕惠. ]]>
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. 惘悛惆 惡悋 DNA 悋 惡愆惠惘 惡 惺悋 惡悋 愆悋悽惠 愆惆 愕惠慍 拆惘惠悧悋 惡悋 悋愕惠悋惆 悋慍 擧悋 RNA 悋慍 悋愕惠. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA悋) 惘悋 惆悋惠 擧惆. 悛悽惘 惘忰 惡悋 悋 擧 拆惘惠悧悋 惘悋 擧惆 擧惆 惠惘悴 悋愕惠. ]]> Sun, 13 Mar 2022 09:14:55 GMT /slideshow/16-from-dna-to-protein-part-ii/251337881 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 16 - From DNA To Protein - Part II AhmadVKashaniMSc 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. 惘悛惆 惡悋 DNA 悋 惡愆惠惘 惡 惺悋 惡悋 愆悋悽惠 愆惆 愕惠慍 拆惘惠悧悋 惡悋 悋愕惠悋惆 悋慍 擧悋 RNA 悋慍 悋愕惠. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA悋) 惘悋 惆悋惠 擧惆. 悛悽惘 惘忰 惡悋 悋 擧 拆惘惠悧悋 惘悋 擧惆 擧惆 惠惘悴 悋愕惠. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2425-fromdnatoprotein-partii-220313091456-thumbnail.jpg?width=120&amp;height=120&amp;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. 惘悛惆 惡悋 DNA 悋 惡愆惠惘 惡 惺悋 惡悋 愆悋悽惠 愆惆 愕惠慍 拆惘惠悧悋 惡悋 悋愕惠悋惆 悋慍 擧悋 RNA 悋慍 悋愕惠. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA悋) 惘悋 惆悋惠 擧惆. 悛悽惘 惘忰 惡悋 悋 擧 拆惘惠悧悋 惘悋 擧惆 擧惆 惠惘悴 悋愕惠.
16 - From DNA To Protein - Part II from Ahmad V.Kashani
]]> 117 0 https://cdn.slidesharecdn.com/ss_thumbnails/2425-fromdnatoprotein-partii-220313091456-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 15 - 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 悋惘惓 擧 悋惘擯悋愕 忰悋 惶悋惠 悽悋惶 悋愕惠 擧 愕惠慍 拆惘惠悧悋 惘悋 悋慍 愀惘 擧悋 RNA 惆惘擯惘 惆惘 愕惠慍 拆惘惠悧 惆擧惠 擧惆. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA 悋( 惘悋 惆悋惠 擧惆. 惡悋 悋 擧 惡惘悋 拆惘惠悧悋 擧惆 擧惆 愆悋 惆 惘忰 悋愕惠: 惘愕 惠惘悴. 惆惘 悋 悋愕悋惆 惶惆 惆悋惘 擯悋 惡 惘悛惆悋 悋惆愕悋慍 惘愕 惡悋惆悋慍. ]]>
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 悋惘惓 擧 悋惘擯悋愕 忰悋 惶悋惠 悽悋惶 悋愕惠 擧 愕惠慍 拆惘惠悧悋 惘悋 悋慍 愀惘 擧悋 RNA 惆惘擯惘 惆惘 愕惠慍 拆惘惠悧 惆擧惠 擧惆. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA 悋( 惘悋 惆悋惠 擧惆. 惡悋 悋 擧 惡惘悋 拆惘惠悧悋 擧惆 擧惆 愆悋 惆 惘忰 悋愕惠: 惘愕 惠惘悴. 惆惘 悋 悋愕悋惆 惶惆 惆悋惘 擯悋 惡 惘悛惆悋 悋惆愕悋慍 惘愕 惡悋惆悋慍. ]]> Mon, 17 Jan 2022 08:02:56 GMT /slideshow/15-from-dna-to-protein-part-i/251006172 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 15 - From DNA to Protein - Part I AhmadVKashaniMSc 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 悋惘惓 擧 悋惘擯悋愕 忰悋 惶悋惠 悽悋惶 悋愕惠 擧 愕惠慍 拆惘惠悧悋 惘悋 悋慍 愀惘 擧悋 RNA 惆惘擯惘 惆惘 愕惠慍 拆惘惠悧 惆擧惠 擧惆. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA 悋( 惘悋 惆悋惠 擧惆. 惡悋 悋 擧 惡惘悋 拆惘惠悧悋 擧惆 擧惆 愆悋 惆 惘忰 悋愕惠: 惘愕 惠惘悴. 惆惘 悋 悋愕悋惆 惶惆 惆悋惘 擯悋 惡 惘悛惆悋 悋惆愕悋慍 惘愕 惡悋惆悋慍. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2223-fromdnatoprotein-parti-220117080257-thumbnail.jpg?width=120&amp;height=120&amp;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 悋惘惓 擧 悋惘擯悋愕 忰悋 惶悋惠 悽悋惶 悋愕惠 擧 愕惠慍 拆惘惠悧悋 惘悋 悋慍 愀惘 擧悋 RNA 惆惘擯惘 惆惘 愕惠慍 拆惘惠悧 惆擧惠 擧惆. 惡 惺惡悋惘惠 惆擯惘 拆惘惠悧悋 惘悋惡愀 惡 惠拆 惠拆 愕惠惆. 惡悋 惘悛惆 悋愕惠 擧 惆惘 悛 DNA 愕惠慍 拆惘惠悧悋 (悋 惆惘 惡惘悽 悋惘惆 愀 RNA 悋( 惘悋 惆悋惠 擧惆. 惡悋 悋 擧 惡惘悋 拆惘惠悧悋 擧惆 擧惆 愆悋 惆 惘忰 悋愕惠: 惘愕 惠惘悴. 惆惘 悋 悋愕悋惆 惶惆 惆悋惘 擯悋 惡 惘悛惆悋 悋惆愕悋慍 惘愕 惡悋惆悋慍.
15 - From DNA to Protein - Part I from Ahmad V.Kashani
]]> 67 0 https://cdn.slidesharecdn.com/ss_thumbnails/2223-fromdnatoprotein-parti-220117080257-thumbnail.jpg?width=120&height=120&fit=bounds presentation 000000 http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 14 - 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 Mendels hereditary factors 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 Mendels proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into the chromosome theory of inheritance. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment. ------------------------------------------------------------------------------------------------------------------------------- 惠 擧惘慍悋 擧拆 愆惆 惘 擧惘慍 惆悋惘悋 惆 愕悽 悋慍 擧 悛 悋愕惠 擧 惘 擧惆悋 惡惘 惘 惘 擧惘悋惠惆 悽悋惘 惘悋惘 惆悋惘惆. 惡悋 悋 忰悋 悋惶 "惺悋 惘悋惓惠" 惆 擯悋 擧 惆惘 愕悋 1860 悴惆 悛悋 惘悋 愀惘忰 擧惘惆 擧 擧悋悋 悋惠慍悋惺 惡惆. 惡悋 悋愕惠悋惆 悋慍 惠擧擧悋 惡惡惆 悋惠 擧惘愕擧拆 愕惠 惠擧 擯惘悋 愆惆惆 慍惘悋 慍愕惠 愆悋愕悋 惘惠悋惘悋 悋慍 惡 惺悋 惘悋惓惠 惆 惆惘 愀 惘悽悋 悴愕 惘悋 愆悋惆 擧惘惆惆 擧 惡惺惆悋 悋 惘惠悋惘悋 擧惘慍 惡 "惴惘 擧惘慍 惘悋惓惠 " 惠惡惆 愆惆. 惡惘悋愕悋愕 悋 惴惘 悋 惆 惆悋惘悋 惺惠悋 (惺惠) 悽悋惶 惆惘 悋惠惆悋惆 擧惘慍悋 愕惠惆 悋 擧惘慍悋 愕惠惆 擧 惠忰惠 悴惆悋愕悋慍 愀惡 惡惆 愕惠 惘悋惘 擯惘惆. ]]>
When chromosomes are duplicated, each chromosome has two copies of the allele, one on each sister chromatid. However, Gregor Mendels hereditary factors 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 Mendels proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into the chromosome theory of inheritance. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment. ------------------------------------------------------------------------------------------------------------------------------- 惠 擧惘慍悋 擧拆 愆惆 惘 擧惘慍 惆悋惘悋 惆 愕悽 悋慍 擧 悛 悋愕惠 擧 惘 擧惆悋 惡惘 惘 惘 擧惘悋惠惆 悽悋惘 惘悋惘 惆悋惘惆. 惡悋 悋 忰悋 悋惶 "惺悋 惘悋惓惠" 惆 擯悋 擧 惆惘 愕悋 1860 悴惆 悛悋 惘悋 愀惘忰 擧惘惆 擧 擧悋悋 悋惠慍悋惺 惡惆. 惡悋 悋愕惠悋惆 悋慍 惠擧擧悋 惡惡惆 悋惠 擧惘愕擧拆 愕惠 惠擧 擯惘悋 愆惆惆 慍惘悋 慍愕惠 愆悋愕悋 惘惠悋惘悋 悋慍 惡 惺悋 惘悋惓惠 惆 惆惘 愀 惘悽悋 悴愕 惘悋 愆悋惆 擧惘惆惆 擧 惡惺惆悋 悋 惘惠悋惘悋 擧惘慍 惡 "惴惘 擧惘慍 惘悋惓惠 " 惠惡惆 愆惆. 惡惘悋愕悋愕 悋 惴惘 悋 惆 惆悋惘悋 惺惠悋 (惺惠) 悽悋惶 惆惘 悋惠惆悋惆 擧惘慍悋 愕惠惆 悋 擧惘慍悋 愕惠惆 擧 惠忰惠 悴惆悋愕悋慍 愀惡 惡惆 愕惠 惘悋惘 擯惘惆. ]]> Wed, 26 May 2021 14:26:19 GMT /AhmadVKashaniMSc/14-the-chromosomal-basis-of-inheritance-248572139 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 14 - The Chromosomal Basis of Inheritance AhmadVKashaniMSc When chromosomes are duplicated, each chromosome has two copies of the allele, one on each sister chromatid. However, Gregor Mendels hereditary factors 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 Mendels proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into the chromosome theory of inheritance. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment. ------------------------------------------------------------------------------------------------------------------------------- 惠 擧惘慍悋 擧拆 愆惆 惘 擧惘慍 惆悋惘悋 惆 愕悽 悋慍 擧 悛 悋愕惠 擧 惘 擧惆悋 惡惘 惘 惘 擧惘悋惠惆 悽悋惘 惘悋惘 惆悋惘惆. 惡悋 悋 忰悋 悋惶 "惺悋 惘悋惓惠" 惆 擯悋 擧 惆惘 愕悋 1860 悴惆 悛悋 惘悋 愀惘忰 擧惘惆 擧 擧悋悋 悋惠慍悋惺 惡惆. 惡悋 悋愕惠悋惆 悋慍 惠擧擧悋 惡惡惆 悋惠 擧惘愕擧拆 愕惠 惠擧 擯惘悋 愆惆惆 慍惘悋 慍愕惠 愆悋愕悋 惘惠悋惘悋 悋慍 惡 惺悋 惘悋惓惠 惆 惆惘 愀 惘悽悋 悴愕 惘悋 愆悋惆 擧惘惆惆 擧 惡惺惆悋 悋 惘惠悋惘悋 擧惘慍 惡 "惴惘 擧惘慍 惘悋惓惠 " 惠惡惆 愆惆. 惡惘悋愕悋愕 悋 惴惘 悋 惆 惆悋惘悋 惺惠悋 (惺惠) 悽悋惶 惆惘 悋惠惆悋惆 擧惘慍悋 愕惠惆 悋 擧惘慍悋 愕惠惆 擧 惠忰惠 悴惆悋愕悋慍 愀惡 惡惆 愕惠 惘悋惘 擯惘惆. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2021-thechromosomalbasisofinheritance-210526142620-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> When chromosomes are duplicated, each chromosome has two copies of the allele, one on each sister chromatid. However, Gregor Mendels hereditary factors 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 Mendels proposed hereditary factors during sexual life cycles and the behavior of chromosomes which later began to be developed into the chromosome theory of inheritance. According to this theory, Mendelian genes have specific loci (positions) along chromosomes, and it is the chromosomes that undergo segregation and independent assortment. ------------------------------------------------------------------------------------------------------------------------------- 惠 擧惘慍悋 擧拆 愆惆 惘 擧惘慍 惆悋惘悋 惆 愕悽 悋慍 擧 悛 悋愕惠 擧 惘 擧惆悋 惡惘 惘 惘 擧惘悋惠惆 悽悋惘 惘悋惘 惆悋惘惆. 惡悋 悋 忰悋 悋惶 &quot;惺悋 惘悋惓惠&quot; 惆 擯悋 擧 惆惘 愕悋 1860 悴惆 悛悋 惘悋 愀惘忰 擧惘惆 擧 擧悋悋 悋惠慍悋惺 惡惆. 惡悋 悋愕惠悋惆 悋慍 惠擧擧悋 惡惡惆 悋惠 擧惘愕擧拆 愕惠 惠擧 擯惘悋 愆惆惆 慍惘悋 慍愕惠 愆悋愕悋 惘惠悋惘悋 悋慍 惡 惺悋 惘悋惓惠 惆 惆惘 愀 惘悽悋 悴愕 惘悋 愆悋惆 擧惘惆惆 擧 惡惺惆悋 悋 惘惠悋惘悋 擧惘慍 惡 &quot;惴惘 擧惘慍 惘悋惓惠 &quot; 惠惡惆 愆惆. 惡惘悋愕悋愕 悋 惴惘 悋 惆 惆悋惘悋 惺惠悋 (惺惠) 悽悋惶 惆惘 悋惠惆悋惆 擧惘慍悋 愕惠惆 悋 擧惘慍悋 愕惠惆 擧 惠忰惠 悴惆悋愕悋慍 愀惡 惡惆 愕惠 惘悋惘 擯惘惆.
14 - The Chromosomal Basis of Inheritance from Ahmad V.Kashani
]]> 53 0 https://cdn.slidesharecdn.com/ss_thumbnails/2021-thechromosomalbasisofinheritance-210526142620-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 13 - Mendel and the Gene Idea /slideshow/13-mendel-and-the-gene-idea-248323875/248323875 2021-mendelandthegeneidea-210516140514
惠惷忰 惘悋惓惠 惡 愀惘 擧 擯愕惠惘惆 惆惘 惆 1800 惡 愀惘 愆悽惶 惘惷 "悽愀 愆惆" 惘惆 拆愕惆 惆悋愆惆悋 慍愕惠 愆悋愕悋 惺惶惘 悽惆 惡惆. 惡惘悋愕悋愕 悋 悋惆 悋惆 惠擧 惠愕愀 悋惆 惆惘愕惠 悋 愀惘 擧 惘擯 悋 悛惡 慍惘惆 惡惘悋 惠惡惆 愆惆 惡 惘擯 愕惡慍 惠惘擧惡 愆惆 悽愀 愆惆惆. 悋惡惠 悋 惘惷 惠惷忰 惆悋惆 擧 擯 惶悋惠 拆愕 悋慍 擧悋惘 惘惠 擧 愕 惆惡悋惘 惆惘 愕 惡惺惆 惴悋惘 愆惆. 擧 擯慍 悴悋擯慍 惡惘悋 惆 悽愀 愆惆 悋惆 惠擧 惘惷 惘悋惓惠 "悵惘悋惠 惺" 悋愕惠 悋 悋 悋惆 . 惆惘 悋 惆 悋惆 悋忰惆悋 惘惓 惡 悋 悋 惘悋 擧 惠 悴惆悋擯悋 悽惆 惘悋 惆惘 惘慍惆悋 忰惴 擧惆 惠 擧惆. 擯惘擯惘 惆 惘悋惡 惡惆 愕悋慍悋惘 悵惘悋 悋 惺 悋惘惓惠 惘悋 惡悋 悋愕惠悋惆 悋慍 擯悋 悽惆 惘擯 惡 悋惓惡悋惠 惘愕悋惆. The explanation of heredity most widely in favor during the 1800s was the blending 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 theyve skipped a generation. An alternative to the blending model is a particulate hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable unitsgenes 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.]]>
惠惷忰 惘悋惓惠 惡 愀惘 擧 擯愕惠惘惆 惆惘 惆 1800 惡 愀惘 愆悽惶 惘惷 "悽愀 愆惆" 惘惆 拆愕惆 惆悋愆惆悋 慍愕惠 愆悋愕悋 惺惶惘 悽惆 惡惆. 惡惘悋愕悋愕 悋 悋惆 悋惆 惠擧 惠愕愀 悋惆 惆惘愕惠 悋 愀惘 擧 惘擯 悋 悛惡 慍惘惆 惡惘悋 惠惡惆 愆惆 惡 惘擯 愕惡慍 惠惘擧惡 愆惆 悽愀 愆惆惆. 悋惡惠 悋 惘惷 惠惷忰 惆悋惆 擧 擯 惶悋惠 拆愕 悋慍 擧悋惘 惘惠 擧 愕 惆惡悋惘 惆惘 愕 惡惺惆 惴悋惘 愆惆. 擧 擯慍 悴悋擯慍 惡惘悋 惆 悽愀 愆惆 悋惆 惠擧 惘惷 惘悋惓惠 "悵惘悋惠 惺" 悋愕惠 悋 悋 悋惆 . 惆惘 悋 惆 悋惆 悋忰惆悋 惘惓 惡 悋 悋 惘悋 擧 惠 悴惆悋擯悋 悽惆 惘悋 惆惘 惘慍惆悋 忰惴 擧惆 惠 擧惆. 擯惘擯惘 惆 惘悋惡 惡惆 愕悋慍悋惘 悵惘悋 悋 惺 悋惘惓惠 惘悋 惡悋 悋愕惠悋惆 悋慍 擯悋 悽惆 惘擯 惡 悋惓惡悋惠 惘愕悋惆. The explanation of heredity most widely in favor during the 1800s was the blending 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 theyve skipped a generation. An alternative to the blending model is a particulate hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable unitsgenes 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-248323875/248323875 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 13 - Mendel and the Gene Idea AhmadVKashaniMSc 惠惷忰 惘悋惓惠 惡 愀惘 擧 擯愕惠惘惆 惆惘 惆 1800 惡 愀惘 愆悽惶 惘惷 "悽愀 愆惆" 惘惆 拆愕惆 惆悋愆惆悋 慍愕惠 愆悋愕悋 惺惶惘 悽惆 惡惆. 惡惘悋愕悋愕 悋 悋惆 悋惆 惠擧 惠愕愀 悋惆 惆惘愕惠 悋 愀惘 擧 惘擯 悋 悛惡 慍惘惆 惡惘悋 惠惡惆 愆惆 惡 惘擯 愕惡慍 惠惘擧惡 愆惆 悽愀 愆惆惆. 悋惡惠 悋 惘惷 惠惷忰 惆悋惆 擧 擯 惶悋惠 拆愕 悋慍 擧悋惘 惘惠 擧 愕 惆惡悋惘 惆惘 愕 惡惺惆 惴悋惘 愆惆. 擧 擯慍 悴悋擯慍 惡惘悋 惆 悽愀 愆惆 悋惆 惠擧 惘惷 惘悋惓惠 "悵惘悋惠 惺" 悋愕惠 悋 悋 悋惆 . 惆惘 悋 惆 悋惆 悋忰惆悋 惘惓 惡 悋 悋 惘悋 擧 惠 悴惆悋擯悋 悽惆 惘悋 惆惘 惘慍惆悋 忰惴 擧惆 惠 擧惆. 擯惘擯惘 惆 惘悋惡 惡惆 愕悋慍悋惘 悵惘悋 悋 惺 悋惘惓惠 惘悋 惡悋 悋愕惠悋惆 悋慍 擯悋 悽惆 惘擯 惡 悋惓惡悋惠 惘愕悋惆. The explanation of heredity most widely in favor during the 1800s was the blending 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 theyve skipped a generation. An alternative to the blending model is a particulate hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable unitsgenes 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&amp;height=120&amp;fit=bounds" /><br> 惠惷忰 惘悋惓惠 惡 愀惘 擧 擯愕惠惘惆 惆惘 惆 1800 惡 愀惘 愆悽惶 惘惷 &quot;悽愀 愆惆&quot; 惘惆 拆愕惆 惆悋愆惆悋 慍愕惠 愆悋愕悋 惺惶惘 悽惆 惡惆. 惡惘悋愕悋愕 悋 悋惆 悋惆 惠擧 惠愕愀 悋惆 惆惘愕惠 悋 愀惘 擧 惘擯 悋 悛惡 慍惘惆 惡惘悋 惠惡惆 愆惆 惡 惘擯 愕惡慍 惠惘擧惡 愆惆 悽愀 愆惆惆. 悋惡惠 悋 惘惷 惠惷忰 惆悋惆 擧 擯 惶悋惠 拆愕 悋慍 擧悋惘 惘惠 擧 愕 惆惡悋惘 惆惘 愕 惡惺惆 惴悋惘 愆惆. 擧 擯慍 悴悋擯慍 惡惘悋 惆 悽愀 愆惆 悋惆 惠擧 惘惷 惘悋惓惠 &quot;悵惘悋惠 惺&quot; 悋愕惠 悋 悋 悋惆 . 惆惘 悋 惆 悋惆 悋忰惆悋 惘惓 惡 悋 悋 惘悋 擧 惠 悴惆悋擯悋 悽惆 惘悋 惆惘 惘慍惆悋 忰惴 擧惆 惠 擧惆. 擯惘擯惘 惆 惘悋惡 惡惆 愕悋慍悋惘 悵惘悋 悋 惺 悋惘惓惠 惘悋 惡悋 悋愕惠悋惆 悋慍 擯悋 悽惆 惘擯 惡 悋惓惡悋惠 惘愕悋惆. The explanation of heredity most widely in favor during the 1800s was the blending 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 theyve skipped a generation. An alternative to the blending model is a particulate hypothesis of inheritance: the gene idea. In this model, parents pass on discrete heritable unitsgenes 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.
13 - Mendel and the Gene Idea from Ahmad V.Kashani
]]> 196 0 https://cdn.slidesharecdn.com/ss_thumbnails/2021-mendelandthegeneidea-210516140514-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 12 - 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. 惠悋悋 悴惆悋惠 慍惆 惆惘 惠惆 惡愆惠惘 悋慍 惺 悽惆 擧 悋慍 擯悋 悋愕惠 擧 悴惆悋惠 慍惆 惘悋 悋慍 悋惆 愃惘 慍惆 惡 惡惠惘 悴 惠悋慍 擧惆. 悋 惴惘惠 忰惶惘 惡 惘惆 惡惘悋 惠惆 惓 悋惆 惺擧惘惆悋 惡擧 惆悋惘悋 拆悋 愕 悋愕惠. 惠惆悋 慍惆擯 惡惘悋愕悋愕 惠惆 惓 愕悋 悋 惠愕 愕 悋愕惠. 惠愕 愕 惆 愆 惘悋 悋悋 擧惆 擧 惠悋 惡悋惺惓 悋悴悋惆 擧 悋惘擯悋愕 悴惆惆 愆惆 悋擧悋 惘愆惆 惠悴惆惆 惠惘 悴悋擯慍 惡悋惠 悛愕惡 惆惆 悴惆悋惠 惆 愕 惘悋 慍 惘悋 擧惆. ]]>
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. 惠悋悋 悴惆悋惠 慍惆 惆惘 惠惆 惡愆惠惘 悋慍 惺 悽惆 擧 悋慍 擯悋 悋愕惠 擧 悴惆悋惠 慍惆 惘悋 悋慍 悋惆 愃惘 慍惆 惡 惡惠惘 悴 惠悋慍 擧惆. 悋 惴惘惠 忰惶惘 惡 惘惆 惡惘悋 惠惆 惓 悋惆 惺擧惘惆悋 惡擧 惆悋惘悋 拆悋 愕 悋愕惠. 惠惆悋 慍惆擯 惡惘悋愕悋愕 惠惆 惓 愕悋 悋 惠愕 愕 悋愕惠. 惠愕 愕 惆 愆 惘悋 悋悋 擧惆 擧 惠悋 惡悋惺惓 悋悴悋惆 擧 悋惘擯悋愕 悴惆惆 愆惆 悋擧悋 惘愆惆 惠悴惆惆 惠惘 悴悋擯慍 惡悋惠 悛愕惡 惆惆 悴惆悋惠 惆 愕 惘悋 慍 惘悋 擧惆. ]]> Sat, 08 May 2021 18:26:06 GMT /slideshow/12-the-cell-division-cycle/248126507 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 12 - The Cell Division Cycle AhmadVKashaniMSc 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. 惠悋悋 悴惆悋惠 慍惆 惆惘 惠惆 惡愆惠惘 悋慍 惺 悽惆 擧 悋慍 擯悋 悋愕惠 擧 悴惆悋惠 慍惆 惘悋 悋慍 悋惆 愃惘 慍惆 惡 惡惠惘 悴 惠悋慍 擧惆. 悋 惴惘惠 忰惶惘 惡 惘惆 惡惘悋 惠惆 惓 悋惆 惺擧惘惆悋 惡擧 惆悋惘悋 拆悋 愕 悋愕惠. 惠惆悋 慍惆擯 惡惘悋愕悋愕 惠惆 惓 愕悋 悋 惠愕 愕 悋愕惠. 惠愕 愕 惆 愆 惘悋 悋悋 擧惆 擧 惠悋 惡悋惺惓 悋悴悋惆 擧 悋惘擯悋愕 悴惆惆 愆惆 悋擧悋 惘愆惆 惠悴惆惆 惠惘 悴悋擯慍 惡悋惠 悛愕惡 惆惆 悴惆悋惠 惆 愕 惘悋 慍 惘悋 擧惆. <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&amp;height=120&amp;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. 惠悋悋 悴惆悋惠 慍惆 惆惘 惠惆 惡愆惠惘 悋慍 惺 悽惆 擧 悋慍 擯悋 悋愕惠 擧 悴惆悋惠 慍惆 惘悋 悋慍 悋惆 愃惘 慍惆 惡 惡惠惘 悴 惠悋慍 擧惆. 悋 惴惘惠 忰惶惘 惡 惘惆 惡惘悋 惠惆 惓 悋惆 惺擧惘惆悋 惡擧 惆悋惘悋 拆悋 愕 悋愕惠. 惠惆悋 慍惆擯 惡惘悋愕悋愕 惠惆 惓 愕悋 悋 惠愕 愕 悋愕惠. 惠愕 愕 惆 愆 惘悋 悋悋 擧惆 擧 惠悋 惡悋惺惓 悋悴悋惆 擧 悋惘擯悋愕 悴惆惆 愆惆 悋擧悋 惘愆惆 惠悴惆惆 惠惘 悴悋擯慍 惡悋惠 悛愕惡 惆惆 悴惆悋惠 惆 愕 惘悋 慍 惘悋 擧惆.
12 - The Cell Division Cycle from Ahmad V.Kashani
]]> 73 0 https://cdn.slidesharecdn.com/ss_thumbnails/09the-cell-division-cycle-210508182606-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 11 - Cell Communication /slideshow/11-cell-communication-241454214/241454214 1617-cellcommunication-210117110429
愕悋 惠悋惆 惡 擧惆擯惘 愕擯悋 惡惆惆 愕擯悋悋 惘悋 擧 悋慍 愕悋 惆擯惘 忰愀 惆惘悋惠 擧惆 惠愕惘 擧惆. 愕擯悋悋 擧 悋愕惠 愆悋 惘 悋 惡惘 悋惓惘 惠悋愕 惡悋愆惆 悋悋 悋愃惡 悋惆 愆悋 愕惠惆. 惆惘 悋 悴愕 悋 惡惘 擧悋愕 悋 悋惶 悋惠悋 拆悋 惠惘擧慍 愆 擧 愕悋 愕擯悋悋 愆悋 悋惘愕悋 愆惆 悋慍 愕悋 惆擯惘 惘悋 惆惘悋惠 拆惘惆悋慍愆 拆悋愕悽 惆惆. --------------------------------------------------------------------------------- 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. ]]>
愕悋 惠悋惆 惡 擧惆擯惘 愕擯悋 惡惆惆 愕擯悋悋 惘悋 擧 悋慍 愕悋 惆擯惘 忰愀 惆惘悋惠 擧惆 惠愕惘 擧惆. 愕擯悋悋 擧 悋愕惠 愆悋 惘 悋 惡惘 悋惓惘 惠悋愕 惡悋愆惆 悋悋 悋愃惡 悋惆 愆悋 愕惠惆. 惆惘 悋 悴愕 悋 惡惘 擧悋愕 悋 悋惶 悋惠悋 拆悋 惠惘擧慍 愆 擧 愕悋 愕擯悋悋 愆悋 悋惘愕悋 愆惆 悋慍 愕悋 惆擯惘 惘悋 惆惘悋惠 拆惘惆悋慍愆 拆悋愕悽 惆惆. --------------------------------------------------------------------------------- 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. ]]> Sun, 17 Jan 2021 11:04:29 GMT /slideshow/11-cell-communication-241454214/241454214 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 11 - Cell Communication AhmadVKashaniMSc 愕悋 惠悋惆 惡 擧惆擯惘 愕擯悋 惡惆惆 愕擯悋悋 惘悋 擧 悋慍 愕悋 惆擯惘 忰愀 惆惘悋惠 擧惆 惠愕惘 擧惆. 愕擯悋悋 擧 悋愕惠 愆悋 惘 悋 惡惘 悋惓惘 惠悋愕 惡悋愆惆 悋悋 悋愃惡 悋惆 愆悋 愕惠惆. 惆惘 悋 悴愕 悋 惡惘 擧悋愕 悋 悋惶 悋惠悋 拆悋 惠惘擧慍 愆 擧 愕悋 愕擯悋悋 愆悋 悋惘愕悋 愆惆 悋慍 愕悋 惆擯惘 惘悋 惆惘悋惠 拆惘惆悋慍愆 拆悋愕悽 惆惆. --------------------------------------------------------------------------------- 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&amp;height=120&amp;fit=bounds" /><br> 愕悋 惠悋惆 惡 擧惆擯惘 愕擯悋 惡惆惆 愕擯悋悋 惘悋 擧 悋慍 愕悋 惆擯惘 忰愀 惆惘悋惠 擧惆 惠愕惘 擧惆. 愕擯悋悋 擧 悋愕惠 愆悋 惘 悋 惡惘 悋惓惘 惠悋愕 惡悋愆惆 悋悋 悋愃惡 悋惆 愆悋 愕惠惆. 惆惘 悋 悴愕 悋 惡惘 擧悋愕 悋 悋惶 悋惠悋 拆悋 惠惘擧慍 愆 擧 愕悋 愕擯悋悋 愆悋 悋惘愕悋 愆惆 悋慍 愕悋 惆擯惘 惘悋 惆惘悋惠 拆惘惆悋慍愆 拆悋愕悽 惆惆. --------------------------------------------------------------------------------- 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.
11 - Cell Communication from Ahmad V.Kashani
]]> 65 0 https://cdn.slidesharecdn.com/ss_thumbnails/1617-cellcommunication-210117110429-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 10 - Photosynthesis /slideshow/10-photosynthesis-240870168/240870168 14-17-photosynthesis-partsiii-210103203331
悋惘 惘 慍 惠愕愀 悽惘愆惆 惠悖 愆惆. 擯悋悋 悋惘擯悋愕悋 悽悋惶 悋慍 愀惘 惘悛惆 擧 惠愕惠慍 悋惆 愆惆 悋惘 悽惘愆惆 惘悋 惠愕愀 悋惆悋擧悋 愕 悋 惡 悋 擧惘拆悋愕惠 惡 擧 悋 悛 惠惡惆 擧惆. 惆惘 悋 惶 惆惘 惘惆 悋 惘惆 惡 愀惘 惶 惶忰惡惠 悽悋 擧惘惆. ---------------------------------------------------------------------- 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. ]]>
悋惘 惘 慍 惠愕愀 悽惘愆惆 惠悖 愆惆. 擯悋悋 悋惘擯悋愕悋 悽悋惶 悋慍 愀惘 惘悛惆 擧 惠愕惠慍 悋惆 愆惆 悋惘 悽惘愆惆 惘悋 惠愕愀 悋惆悋擧悋 愕 悋 惡 悋 擧惘拆悋愕惠 惡 擧 悋 悛 惠惡惆 擧惆. 惆惘 悋 惶 惆惘 惘惆 悋 惘惆 惡 愀惘 惶 惶忰惡惠 悽悋 擧惘惆. ---------------------------------------------------------------------- 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. ]]> Sun, 03 Jan 2021 20:33:31 GMT /slideshow/10-photosynthesis-240870168/240870168 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 10 - Photosynthesis AhmadVKashaniMSc 悋惘 惘 慍 惠愕愀 悽惘愆惆 惠悖 愆惆. 擯悋悋 悋惘擯悋愕悋 悽悋惶 悋慍 愀惘 惘悛惆 擧 惠愕惠慍 悋惆 愆惆 悋惘 悽惘愆惆 惘悋 惠愕愀 悋惆悋擧悋 愕 悋 惡 悋 擧惘拆悋愕惠 惡 擧 悋 悛 惠惡惆 擧惆. 惆惘 悋 惶 惆惘 惘惆 悋 惘惆 惡 愀惘 惶 惶忰惡惠 悽悋 擧惘惆. ---------------------------------------------------------------------- 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&amp;height=120&amp;fit=bounds" /><br> 悋惘 惘 慍 惠愕愀 悽惘愆惆 惠悖 愆惆. 擯悋悋 悋惘擯悋愕悋 悽悋惶 悋慍 愀惘 惘悛惆 擧 惠愕惠慍 悋惆 愆惆 悋惘 悽惘愆惆 惘悋 惠愕愀 悋惆悋擧悋 愕 悋 惡 悋 擧惘拆悋愕惠 惡 擧 悋 悛 惠惡惆 擧惆. 惆惘 悋 惶 惆惘 惘惆 悋 惘惆 惡 愀惘 惶 惶忰惡惠 悽悋 擧惘惆. ---------------------------------------------------------------------- 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.
10 - Photosynthesis from Ahmad V.Kashani
]]> 181 0 https://cdn.slidesharecdn.com/ss_thumbnails/14-17-photosynthesis-partsiii-210103203331-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 9 - Metabolism and Transfering Energy - Part Two /slideshow/metabolism-and-transfering-energy-part-two/240604481 1415-cellularrespirationfermentation-201227103148
愕悋 慍惆 惡惘悋 悋悴悋 惡愕悋惘 悋慍 惴悋 悽惆 惡 悋惠悋 悋惘 悋慍 悋惡惺 悽悋惘悴 悋慍 惆悋惘惆. 悋惘擯悋愕悋 惡悋惆 悋慍 愀惘 惠愕惠慍 惠愕 愕 悋 悋惘 惘悋 悋慍 擧 悋 悛 悴惆 惆惘愃悵悋 惡惆愕惠 悛惘惆. 惠愕 惡悋 悋愕惠悋惆 悋慍 悋擧愕 惠惆 ATP 惡悋惺惓 愆擧愕惠 悋 愕悽惠 愆惆. 悋惆 慍悋悧惆 悋 惺 惠愕 惆 悋擧愕惆 擧惘惡 悛惡 悋惆 悋 惠愕惠慍 愕惠惆. 惆惘 悋 悋愕悋惆 愕惺 擧 擯擯 惡惘惆悋愆惠 愕悋 悋慍 悋惘 悵悽惘 愆惆 惆惘 擧悋 悛 悋愕惠悋惆 悋慍 悛 惡惘悋 惠惆 ATP 悋慍 愀惘 惠愕 愕 惘悋 惠惷忰 惆. ---------------------------------------------------------------------------------- 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. ]]>
愕悋 慍惆 惡惘悋 悋悴悋 惡愕悋惘 悋慍 惴悋 悽惆 惡 悋惠悋 悋惘 悋慍 悋惡惺 悽悋惘悴 悋慍 惆悋惘惆. 悋惘擯悋愕悋 惡悋惆 悋慍 愀惘 惠愕惠慍 惠愕 愕 悋 悋惘 惘悋 悋慍 擧 悋 悛 悴惆 惆惘愃悵悋 惡惆愕惠 悛惘惆. 惠愕 惡悋 悋愕惠悋惆 悋慍 悋擧愕 惠惆 ATP 惡悋惺惓 愆擧愕惠 悋 愕悽惠 愆惆. 悋惆 慍悋悧惆 悋 惺 惠愕 惆 悋擧愕惆 擧惘惡 悛惡 悋惆 悋 惠愕惠慍 愕惠惆. 惆惘 悋 悋愕悋惆 愕惺 擧 擯擯 惡惘惆悋愆惠 愕悋 悋慍 悋惘 悵悽惘 愆惆 惆惘 擧悋 悛 悋愕惠悋惆 悋慍 悛 惡惘悋 惠惆 ATP 悋慍 愀惘 惠愕 愕 惘悋 惠惷忰 惆. ---------------------------------------------------------------------------------- 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. ]]> Sun, 27 Dec 2020 10:31:48 GMT /slideshow/metabolism-and-transfering-energy-part-two/240604481 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 9 - Metabolism and Transfering Energy - Part Two AhmadVKashaniMSc 愕悋 慍惆 惡惘悋 悋悴悋 惡愕悋惘 悋慍 惴悋 悽惆 惡 悋惠悋 悋惘 悋慍 悋惡惺 悽悋惘悴 悋慍 惆悋惘惆. 悋惘擯悋愕悋 惡悋惆 悋慍 愀惘 惠愕惠慍 惠愕 愕 悋 悋惘 惘悋 悋慍 擧 悋 悛 悴惆 惆惘愃悵悋 惡惆愕惠 悛惘惆. 惠愕 惡悋 悋愕惠悋惆 悋慍 悋擧愕 惠惆 ATP 惡悋惺惓 愆擧愕惠 悋 愕悽惠 愆惆. 悋惆 慍悋悧惆 悋 惺 惠愕 惆 悋擧愕惆 擧惘惡 悛惡 悋惆 悋 惠愕惠慍 愕惠惆. 惆惘 悋 悋愕悋惆 愕惺 擧 擯擯 惡惘惆悋愆惠 愕悋 悋慍 悋惘 悵悽惘 愆惆 惆惘 擧悋 悛 悋愕惠悋惆 悋慍 悛 惡惘悋 惠惆 ATP 悋慍 愀惘 惠愕 愕 惘悋 惠惷忰 惆. ---------------------------------------------------------------------------------- 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&amp;height=120&amp;fit=bounds" /><br> 愕悋 慍惆 惡惘悋 悋悴悋 惡愕悋惘 悋慍 惴悋 悽惆 惡 悋惠悋 悋惘 悋慍 悋惡惺 悽悋惘悴 悋慍 惆悋惘惆. 悋惘擯悋愕悋 惡悋惆 悋慍 愀惘 惠愕惠慍 惠愕 愕 悋 悋惘 惘悋 悋慍 擧 悋 悛 悴惆 惆惘愃悵悋 惡惆愕惠 悛惘惆. 惠愕 惡悋 悋愕惠悋惆 悋慍 悋擧愕 惠惆 ATP 惡悋惺惓 愆擧愕惠 悋 愕悽惠 愆惆. 悋惆 慍悋悧惆 悋 惺 惠愕 惆 悋擧愕惆 擧惘惡 悛惡 悋惆 悋 惠愕惠慍 愕惠惆. 惆惘 悋 悋愕悋惆 愕惺 擧 擯擯 惡惘惆悋愆惠 愕悋 悋慍 悋惘 悵悽惘 愆惆 惆惘 擧悋 悛 悋愕惠悋惆 悋慍 悛 惡惘悋 惠惆 ATP 悋慍 愀惘 惠愕 愕 惘悋 惠惷忰 惆. ---------------------------------------------------------------------------------- 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.
9 - Metabolism and Transfering Energy - Part Two from Ahmad V.Kashani
]]> 115 0 https://cdn.slidesharecdn.com/ss_thumbnails/1415-cellularrespirationfermentation-201227103148-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 8 - Metabolism and Transfering Energy - Part One /slideshow/metabolism-and-transfering-energy-part-one/240371945 1213-metabolismtransferingenergy-parti-201221074805
愕 慍惆 擧 擧悋惘悽悋 愆悋 擧惘愕擧拆 悋愕惠 擧 慍悋惘悋 悋擧愆 惆惘 悋 惷悋 悋惠悋 悋惠惆. 悋慍 惴惘 拆惆擯 擧悋惘悋 悋擧愆 拆悵惘 惆惘 惡惘悋惡惘 惠愃惘悋惠 惴惘 愕 惡 惺悋 擧 擧悋惘悽悋 惠惆 悋惆 愆悋 惡 惴惘 悋愕惠. 悋 惠悋惡愕 擧 惆惘 悋 悋惘悋悧 悋惆 擯惘惆 惡 愆悋 擧擧 擧惆 惠悋 惆惘擧 惆惘愕惠 悋慍 擯擯 悴惘悋 悋惆 悋惘 惆惘 惘悛惆悋 慍愕惠 惆悋愆惠 惡悋愆惆 惡悋 擯擯 惠惴 悛 悛愆悋 愆惆. ----------------------------------------------------------------------------- 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 lifes processes and how that flow is regulated. ]]>
愕 慍惆 擧 擧悋惘悽悋 愆悋 擧惘愕擧拆 悋愕惠 擧 慍悋惘悋 悋擧愆 惆惘 悋 惷悋 悋惠悋 悋惠惆. 悋慍 惴惘 拆惆擯 擧悋惘悋 悋擧愆 拆悵惘 惆惘 惡惘悋惡惘 惠愃惘悋惠 惴惘 愕 惡 惺悋 擧 擧悋惘悽悋 惠惆 悋惆 愆悋 惡 惴惘 悋愕惠. 悋 惠悋惡愕 擧 惆惘 悋 悋惘悋悧 悋惆 擯惘惆 惡 愆悋 擧擧 擧惆 惠悋 惆惘擧 惆惘愕惠 悋慍 擯擯 悴惘悋 悋惆 悋惘 惆惘 惘悛惆悋 慍愕惠 惆悋愆惠 惡悋愆惆 惡悋 擯擯 惠惴 悛 悛愆悋 愆惆. ----------------------------------------------------------------------------- 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 lifes processes and how that flow is regulated. ]]> Mon, 21 Dec 2020 07:48:05 GMT /slideshow/metabolism-and-transfering-energy-part-one/240371945 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 8 - Metabolism and Transfering Energy - Part One AhmadVKashaniMSc 愕 慍惆 擧 擧悋惘悽悋 愆悋 擧惘愕擧拆 悋愕惠 擧 慍悋惘悋 悋擧愆 惆惘 悋 惷悋 悋惠悋 悋惠惆. 悋慍 惴惘 拆惆擯 擧悋惘悋 悋擧愆 拆悵惘 惆惘 惡惘悋惡惘 惠愃惘悋惠 惴惘 愕 惡 惺悋 擧 擧悋惘悽悋 惠惆 悋惆 愆悋 惡 惴惘 悋愕惠. 悋 惠悋惡愕 擧 惆惘 悋 悋惘悋悧 悋惆 擯惘惆 惡 愆悋 擧擧 擧惆 惠悋 惆惘擧 惆惘愕惠 悋慍 擯擯 悴惘悋 悋惆 悋惘 惆惘 惘悛惆悋 慍愕惠 惆悋愆惠 惡悋愆惆 惡悋 擯擯 惠惴 悛 悛愆悋 愆惆. ----------------------------------------------------------------------------- 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 lifes 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&amp;height=120&amp;fit=bounds" /><br> 愕 慍惆 擧 擧悋惘悽悋 愆悋 擧惘愕擧拆 悋愕惠 擧 慍悋惘悋 悋擧愆 惆惘 悋 惷悋 悋惠悋 悋惠惆. 悋慍 惴惘 拆惆擯 擧悋惘悋 悋擧愆 拆悵惘 惆惘 惡惘悋惡惘 惠愃惘悋惠 惴惘 愕 惡 惺悋 擧 擧悋惘悽悋 惠惆 悋惆 愆悋 惡 惴惘 悋愕惠. 悋 惠悋惡愕 擧 惆惘 悋 悋惘悋悧 悋惆 擯惘惆 惡 愆悋 擧擧 擧惆 惠悋 惆惘擧 惆惘愕惠 悋慍 擯擯 悴惘悋 悋惆 悋惘 惆惘 惘悛惆悋 慍愕惠 惆悋愆惠 惡悋愆惆 惡悋 擯擯 惠惴 悛 悛愆悋 愆惆. ----------------------------------------------------------------------------- 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 lifes processes and how that flow is regulated.
8 - Metabolism and Transfering Energy - Part One from Ahmad V.Kashani
]]> 76 0 https://cdn.slidesharecdn.com/ss_thumbnails/1213-metabolismtransferingenergy-parti-201221074805-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 7 - Membrane Structue and Function /slideshow/membrane-structue-and-function/240065591 1011-membranestructueandfunction-201213121845
惆惘 慍愕惠 愆悋愕 擧拆惡 惡悋 惶惘悋忰惠 惘愆 悵擧惘 愆惆 悋愕惠: "愃愆悋 拆悋愕悋 擧 愕 惘悋 悋忰悋愀 擧惘惆 悋愕惠 惘悋 惠悋 惡 惺悋 惡 忰悋惠 惆悋愕惠 惘慍 擧 愕 慍惆 惘悋 悋慍 忰愀 悋愀惘悋 悽惆 悴惆悋 擧惆." 惆惘 悋 悋愕悋惆 悋 愕惺 擧 悋惆 惡擯惘 擧 擯 愃愆悋 愕 惺惡惘 悋惆 悽惠 惘悋 惡悋 悋惆悋慍悋 悋惠 悽惠 擧惠惘 擧惆. --------------------------------------------------------------------------------------------- It is neatly mentioned in Campbell Biology: The plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings. In this slide, we try to learn how cellular membrane controls the passage of different substances of different size and nature. ]]>
惆惘 慍愕惠 愆悋愕 擧拆惡 惡悋 惶惘悋忰惠 惘愆 悵擧惘 愆惆 悋愕惠: "愃愆悋 拆悋愕悋 擧 愕 惘悋 悋忰悋愀 擧惘惆 悋愕惠 惘悋 惠悋 惡 惺悋 惡 忰悋惠 惆悋愕惠 惘慍 擧 愕 慍惆 惘悋 悋慍 忰愀 悋愀惘悋 悽惆 悴惆悋 擧惆." 惆惘 悋 悋愕悋惆 悋 愕惺 擧 悋惆 惡擯惘 擧 擯 愃愆悋 愕 惺惡惘 悋惆 悽惠 惘悋 惡悋 悋惆悋慍悋 悋惠 悽惠 擧惠惘 擧惆. --------------------------------------------------------------------------------------------- It is neatly mentioned in Campbell Biology: The plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings. In this slide, we try to learn how cellular membrane controls the passage of different substances of different size and nature. ]]> Sun, 13 Dec 2020 12:18:45 GMT /slideshow/membrane-structue-and-function/240065591 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 7 - Membrane Structue and Function AhmadVKashaniMSc 惆惘 慍愕惠 愆悋愕 擧拆惡 惡悋 惶惘悋忰惠 惘愆 悵擧惘 愆惆 悋愕惠: "愃愆悋 拆悋愕悋 擧 愕 惘悋 悋忰悋愀 擧惘惆 悋愕惠 惘悋 惠悋 惡 惺悋 惡 忰悋惠 惆悋愕惠 惘慍 擧 愕 慍惆 惘悋 悋慍 忰愀 悋愀惘悋 悽惆 悴惆悋 擧惆." 惆惘 悋 悋愕悋惆 悋 愕惺 擧 悋惆 惡擯惘 擧 擯 愃愆悋 愕 惺惡惘 悋惆 悽惠 惘悋 惡悋 悋惆悋慍悋 悋惠 悽惠 擧惠惘 擧惆. --------------------------------------------------------------------------------------------- It is neatly mentioned in Campbell Biology: The plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings. 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&amp;height=120&amp;fit=bounds" /><br> 惆惘 慍愕惠 愆悋愕 擧拆惡 惡悋 惶惘悋忰惠 惘愆 悵擧惘 愆惆 悋愕惠: &quot;愃愆悋 拆悋愕悋 擧 愕 惘悋 悋忰悋愀 擧惘惆 悋愕惠 惘悋 惠悋 惡 惺悋 惡 忰悋惠 惆悋愕惠 惘慍 擧 愕 慍惆 惘悋 悋慍 忰愀 悋愀惘悋 悽惆 悴惆悋 擧惆.&quot; 惆惘 悋 悋愕悋惆 悋 愕惺 擧 悋惆 惡擯惘 擧 擯 愃愆悋 愕 惺惡惘 悋惆 悽惠 惘悋 惡悋 悋惆悋慍悋 悋惠 悽惠 擧惠惘 擧惆. --------------------------------------------------------------------------------------------- It is neatly mentioned in Campbell Biology: The plasma membrane that surrounds the cell can be considered the edge of life, the boundary that separates a living cell from its surroundings. In this slide, we try to learn how cellular membrane controls the passage of different substances of different size and nature.
7 - Membrane Structue and Function from Ahmad V.Kashani
]]> 108 0 https://cdn.slidesharecdn.com/ss_thumbnails/1011-membranestructueandfunction-201213121845-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 6 - A tour of the cell - Part Three /slideshow/a-tour-of-the-cell-part-three/239807706 1011-atourofthecell-partiii-201206111109
惆悋惘 愕 愆擧 悋 悋慍 悋惠惘愕 悽悋惘悴 愕 悋愕惠 擧 惘 愕 擯悋 惘悋 悋忰悋愀 擧惘惆 悋愕惠. 惆悋惘 愕 愕悧 惡愕悋惘 悋慍 悽惶惶悋惠 悋愕惠 擧 愕悋 擯悋 惘悋 悋慍 愕悋 忰悋 惠悋慍 擧惆. 惆惘 愕悋 忰悋 惆悋愕惠悋 惠悋惠 悋愕惠! 惡悋惠悋 悽惠 惆悋惘悋 悋悴慍悋 愕悋慍悋 忰惶惘 惡 惘惆 惠悽惶惶 悋惠惘愕 悽悋惘悴 愕 (ECM) 愕惠惆 擧 惘 ECM 惘悋 悋惆惘 愕悋慍惆 惠悋 愆悋 悽悋惶 惡悋惠 悋慍 悴 拆愆惠惡悋 愕悋悽惠悋惘 悋惠悋 惘悋 惠惘悋愕 悋擧惘擧 惘悋 悋悴悋 惆惆. ----------------------------------------------------------------------------------- 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.]]>
惆悋惘 愕 愆擧 悋 悋慍 悋惠惘愕 悽悋惘悴 愕 悋愕惠 擧 惘 愕 擯悋 惘悋 悋忰悋愀 擧惘惆 悋愕惠. 惆悋惘 愕 愕悧 惡愕悋惘 悋慍 悽惶惶悋惠 悋愕惠 擧 愕悋 擯悋 惘悋 悋慍 愕悋 忰悋 惠悋慍 擧惆. 惆惘 愕悋 忰悋 惆悋愕惠悋 惠悋惠 悋愕惠! 惡悋惠悋 悽惠 惆悋惘悋 悋悴慍悋 愕悋慍悋 忰惶惘 惡 惘惆 惠悽惶惶 悋惠惘愕 悽悋惘悴 愕 (ECM) 愕惠惆 擧 惘 ECM 惘悋 悋惆惘 愕悋慍惆 惠悋 愆悋 悽悋惶 惡悋惠 悋慍 悴 拆愆惠惡悋 愕悋悽惠悋惘 悋惠悋 惘悋 惠惘悋愕 悋擧惘擧 惘悋 悋悴悋 惆惆. ----------------------------------------------------------------------------------- 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/239807706 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 6 - A tour of the cell - Part Three AhmadVKashaniMSc 惆悋惘 愕 愆擧 悋 悋慍 悋惠惘愕 悽悋惘悴 愕 悋愕惠 擧 惘 愕 擯悋 惘悋 悋忰悋愀 擧惘惆 悋愕惠. 惆悋惘 愕 愕悧 惡愕悋惘 悋慍 悽惶惶悋惠 悋愕惠 擧 愕悋 擯悋 惘悋 悋慍 愕悋 忰悋 惠悋慍 擧惆. 惆惘 愕悋 忰悋 惆悋愕惠悋 惠悋惠 悋愕惠! 惡悋惠悋 悽惠 惆悋惘悋 悋悴慍悋 愕悋慍悋 忰惶惘 惡 惘惆 惠悽惶惶 悋惠惘愕 悽悋惘悴 愕 (ECM) 愕惠惆 擧 惘 ECM 惘悋 悋惆惘 愕悋慍惆 惠悋 愆悋 悽悋惶 惡悋惠 悋慍 悴 拆愆惠惡悋 愕悋悽惠悋惘 悋惠悋 惘悋 惠惘悋愕 悋擧惘擧 惘悋 悋悴悋 惆惆. ----------------------------------------------------------------------------------- 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&amp;height=120&amp;fit=bounds" /><br> 惆悋惘 愕 愆擧 悋 悋慍 悋惠惘愕 悽悋惘悴 愕 悋愕惠 擧 惘 愕 擯悋 惘悋 悋忰悋愀 擧惘惆 悋愕惠. 惆悋惘 愕 愕悧 惡愕悋惘 悋慍 悽惶惶悋惠 悋愕惠 擧 愕悋 擯悋 惘悋 悋慍 愕悋 忰悋 惠悋慍 擧惆. 惆惘 愕悋 忰悋 惆悋愕惠悋 惠悋惠 悋愕惠! 惡悋惠悋 悽惠 惆悋惘悋 悋悴慍悋 愕悋慍悋 忰惶惘 惡 惘惆 惠悽惶惶 悋惠惘愕 悽悋惘悴 愕 (ECM) 愕惠惆 擧 惘 ECM 惘悋 悋惆惘 愕悋慍惆 惠悋 愆悋 悽悋惶 惡悋惠 悋慍 悴 拆愆惠惡悋 愕悋悽惠悋惘 悋惠悋 惘悋 惠惘悋愕 悋擧惘擧 惘悋 悋悴悋 惆惆. ----------------------------------------------------------------------------------- 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.
6 - A tour of the cell - Part Three from Ahmad V.Kashani
]]> 71 0 https://cdn.slidesharecdn.com/ss_thumbnails/1011-atourofthecell-partiii-201206111109-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 5 - A tour of the cell - Part Two /slideshow/5-a-tour-of-the-cell-part-two/239581141 89-atourofthecell-partii-201129071542
惆惘 惘慍悋 悋 擧惘愕擧拆 悋擧惠惘 慍愕惠 愆悋愕悋 惠惶惘 擧惘惆惆 擧 悋惆悋擧 愕 擧悋惘惠 悛慍悋惆悋 惆惘 愕惠慍 愆悋惘 悋愕惠. 悋悋 拆愆惘惠 悋 悋悴悋 愆惆 惆惘 惠擧 愕悋悽惠 擧惘愕擧拆悋 惘 悋擧惠惘 愆悋 惆悋惆 悋愕惠 擧 愆惡擧悋 悋慍 惡惘悋 惆惘 愕惘悋愕惘 愕惠拆悋愕 擯愕惠惘愆 悋惠 悋愕惠 悛悋 悛 惘悋 悋愕擧惠 愕 悋惆 悋惆. -------------------------------------------------------------------------- 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. ]]>
惆惘 惘慍悋 悋 擧惘愕擧拆 悋擧惠惘 慍愕惠 愆悋愕悋 惠惶惘 擧惘惆惆 擧 悋惆悋擧 愕 擧悋惘惠 悛慍悋惆悋 惆惘 愕惠慍 愆悋惘 悋愕惠. 悋悋 拆愆惘惠 悋 悋悴悋 愆惆 惆惘 惠擧 愕悋悽惠 擧惘愕擧拆悋 惘 悋擧惠惘 愆悋 惆悋惆 悋愕惠 擧 愆惡擧悋 悋慍 惡惘悋 惆惘 愕惘悋愕惘 愕惠拆悋愕 擯愕惠惘愆 悋惠 悋愕惠 悛悋 悛 惘悋 悋愕擧惠 愕 悋惆 悋惆. -------------------------------------------------------------------------- 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. ]]> Sun, 29 Nov 2020 07:15:42 GMT /slideshow/5-a-tour-of-the-cell-part-two/239581141 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 5 - A tour of the cell - Part Two AhmadVKashaniMSc 惆惘 惘慍悋 悋 擧惘愕擧拆 悋擧惠惘 慍愕惠 愆悋愕悋 惠惶惘 擧惘惆惆 擧 悋惆悋擧 愕 擧悋惘惠 悛慍悋惆悋 惆惘 愕惠慍 愆悋惘 悋愕惠. 悋悋 拆愆惘惠 悋 悋悴悋 愆惆 惆惘 惠擧 愕悋悽惠 擧惘愕擧拆悋 惘 悋擧惠惘 愆悋 惆悋惆 悋愕惠 擧 愆惡擧悋 悋慍 惡惘悋 惆惘 愕惘悋愕惘 愕惠拆悋愕 擯愕惠惘愆 悋惠 悋愕惠 悛悋 悛 惘悋 悋愕擧惠 愕 悋惆 悋惆. -------------------------------------------------------------------------- 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&amp;height=120&amp;fit=bounds" /><br> 惆惘 惘慍悋 悋 擧惘愕擧拆 悋擧惠惘 慍愕惠 愆悋愕悋 惠惶惘 擧惘惆惆 擧 悋惆悋擧 愕 擧悋惘惠 悛慍悋惆悋 惆惘 愕惠慍 愆悋惘 悋愕惠. 悋悋 拆愆惘惠 悋 悋悴悋 愆惆 惆惘 惠擧 愕悋悽惠 擧惘愕擧拆悋 惘 悋擧惠惘 愆悋 惆悋惆 悋愕惠 擧 愆惡擧悋 悋慍 惡惘悋 惆惘 愕惘悋愕惘 愕惠拆悋愕 擯愕惠惘愆 悋惠 悋愕惠 悛悋 悛 惘悋 悋愕擧惠 愕 悋惆 悋惆. -------------------------------------------------------------------------- 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.
5 - A tour of the cell - Part Two from Ahmad V.Kashani
]]> 52 0 https://cdn.slidesharecdn.com/ss_thumbnails/89-atourofthecell-partii-201129071542-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 4 - A tour of the cell - Part One /slideshow/a-tour-of-the-cell-part-one/239378390 67-atourofthecell-parti-201122135424
愕悋 惡 悋 悋惆悋慍 悋惠悋 惆惘 愆 惡惘悋 愕愕惠悋 慍惆 悋愕悋愕 愕惠惆. 悋擧 悋悋惺 悽惠 悋慍 愕 悋 惆惘 惡惆 悋 擧悋惘 擧惆. 惆惘 愀 惠擧悋 愕悋 惡 惘愆悋 悽惠 悋惶悋忰 愆惆悋惆. 悋擯惘 愕悋 惠悋惆 惠悋惠 悋愕悋愕 惡悋 擧惆擯惘 惆悋愆惠 惡悋愆惆 悋悋 擯悋 愆惠惘擧 惆悋惘惆. 惆惘 悋 悋愕悋惆 2 惘惆 惡惺惆 悋 愕惘 惡 惆惘 擧 愕 悽悋 惆悋愆惠 惡悋 悋悴慍悋 愕悋慍惆 悛 悛愆悋 悽悋 愆惆. ---------------------------------------------------------------------------- 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, well take a tour inside a cell and become acquainted with its components. ]]>
愕悋 惡 悋 悋惆悋慍 悋惠悋 惆惘 愆 惡惘悋 愕愕惠悋 慍惆 悋愕悋愕 愕惠惆. 悋擧 悋悋惺 悽惠 悋慍 愕 悋 惆惘 惡惆 悋 擧悋惘 擧惆. 惆惘 愀 惠擧悋 愕悋 惡 惘愆悋 悽惠 悋惶悋忰 愆惆悋惆. 悋擯惘 愕悋 惠悋惆 惠悋惠 悋愕悋愕 惡悋 擧惆擯惘 惆悋愆惠 惡悋愆惆 悋悋 擯悋 愆惠惘擧 惆悋惘惆. 惆惘 悋 悋愕悋惆 2 惘惆 惡惺惆 悋 愕惘 惡 惆惘 擧 愕 悽悋 惆悋愆惠 惡悋 悋悴慍悋 愕悋慍惆 悛 悛愆悋 悽悋 愆惆. ---------------------------------------------------------------------------- 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, well take a tour inside a cell and become acquainted with its components. ]]> Sun, 22 Nov 2020 13:54:24 GMT /slideshow/a-tour-of-the-cell-part-one/239378390 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 4 - A tour of the cell - Part One AhmadVKashaniMSc 愕悋 惡 悋 悋惆悋慍 悋惠悋 惆惘 愆 惡惘悋 愕愕惠悋 慍惆 悋愕悋愕 愕惠惆. 悋擧 悋悋惺 悽惠 悋慍 愕 悋 惆惘 惡惆 悋 擧悋惘 擧惆. 惆惘 愀 惠擧悋 愕悋 惡 惘愆悋 悽惠 悋惶悋忰 愆惆悋惆. 悋擯惘 愕悋 惠悋惆 惠悋惠 悋愕悋愕 惡悋 擧惆擯惘 惆悋愆惠 惡悋愆惆 悋悋 擯悋 愆惠惘擧 惆悋惘惆. 惆惘 悋 悋愕悋惆 2 惘惆 惡惺惆 悋 愕惘 惡 惆惘 擧 愕 悽悋 惆悋愆惠 惡悋 悋悴慍悋 愕悋慍惆 悛 悛愆悋 悽悋 愆惆. ---------------------------------------------------------------------------- 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, well 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&amp;height=120&amp;fit=bounds" /><br> 愕悋 惡 悋 悋惆悋慍 悋惠悋 惆惘 愆 惡惘悋 愕愕惠悋 慍惆 悋愕悋愕 愕惠惆. 悋擧 悋悋惺 悽惠 悋慍 愕 悋 惆惘 惡惆 悋 擧悋惘 擧惆. 惆惘 愀 惠擧悋 愕悋 惡 惘愆悋 悽惠 悋惶悋忰 愆惆悋惆. 悋擯惘 愕悋 惠悋惆 惠悋惠 悋愕悋愕 惡悋 擧惆擯惘 惆悋愆惠 惡悋愆惆 悋悋 擯悋 愆惠惘擧 惆悋惘惆. 惆惘 悋 悋愕悋惆 2 惘惆 惡惺惆 悋 愕惘 惡 惆惘 擧 愕 悽悋 惆悋愆惠 惡悋 悋悴慍悋 愕悋慍惆 悛 悛愆悋 悽悋 愆惆. ---------------------------------------------------------------------------- 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, well take a tour inside a cell and become acquainted with its components.
4 - A tour of the cell - Part One from Ahmad V.Kashani
]]> 124 0 https://cdn.slidesharecdn.com/ss_thumbnails/67-atourofthecell-parti-201122135424-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 3 - 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-2/239277721 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 3 - Chemical Composition of the Cell - Part 2 AhmadVKashaniMSc This 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&amp;height=120&amp;fit=bounds" /><br> This slide introduces the rest of the basic concepts of chemistry that apply to the study of life.
3 - Chemical Composition of the Cell - Part 2 from Ahmad V.Kashani
]]> 44 0 https://cdn.slidesharecdn.com/ss_thumbnails/45-chemicalcompositionofthecell-part2-201116093443-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 2 - 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-1/239148193 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 2 - Chemical Composition of the Cell - part 1 AhmadVKashaniMSc 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/23-chemicalcompositionofthecell-part1-201108103034-thumbnail.jpg?width=120&amp;height=120&amp;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 &quot;Campbell Biology&quot; and for further studies, you can refer to the second chapter of the book. The slide is prepared for freshman Bachelor&#39;s students.
2 - Chemical Composition of the Cell - part 1 from Ahmad V.Kashani
]]> 48 0 https://cdn.slidesharecdn.com/ss_thumbnails/23-chemicalcompositionofthecell-part1-201108103034-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 1 - 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 際際滷 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 際際滷 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-239148176/239148176 AhmadVKashaniMSc@slideshare.net(AhmadVKashaniMSc) 1 - variety of life AhmadVKashaniMSc 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 際際滷 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&amp;height=120&amp;fit=bounds" /><br> This slide is the first one of a series of slides adapted from the &quot;Campbell Biology&quot; for Bachelor student of science and medicine. In this 際際滷 I have tried to briefly talk about taxonomy and the classification of organisms.
1 - variety of life from Ahmad V.Kashani
]]> 251 0 https://cdn.slidesharecdn.com/ss_thumbnails/0-varietyoflife-201108102631-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 https://public.slidesharecdn.com/v2/images/profile-picture.png www.ut.ac.ir https://cdn.slidesharecdn.com/ss_thumbnails/2425-fromdnatoprotein-partii-220313091456-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/16-from-dna-to-protein-part-ii/251337881 16 - From DNA To Prote... https://cdn.slidesharecdn.com/ss_thumbnails/2223-fromdnatoprotein-parti-220117080257-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/15-from-dna-to-protein-part-i/251006172 15 - From DNA to Prote... https://cdn.slidesharecdn.com/ss_thumbnails/2021-thechromosomalbasisofinheritance-210526142620-thumbnail.jpg?width=320&height=320&fit=bounds AhmadVKashaniMSc/14-the-chromosomal-basis-of-inheritance-248572139 14 - The Chromosomal B...