�ݺ�ߣshows by User: 6263234147

�ݺ�ߣshows by User: 6263234147 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: 6263234147 / Wed, 27 May 2020 17:13:43 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: 6263234147 tumor suppressor gene, prb, p53 gene /slideshow/tumor-suppressor-gene-prb-p53-gene/234640230 2-200527171343
Introduction History Tumor suppressor gene- pRB - RB gene - Role of RB in regulation of cell cycle - Tumor associated with RB gene mutation Tumor suppressor gene- p53 - What is p53 gene? - Function of p53 gene - How it regulates cell cycle - What happen if p53 gene inactivated - Cancer associated with p53 mutation - Conclusion - References ]]>
Introduction History Tumor suppressor gene- pRB - RB gene - Role of RB in regulation of cell cycle - Tumor associated with RB gene mutation Tumor suppressor gene- p53 - What is p53 gene? - Function of p53 gene - How it regulates cell cycle - What happen if p53 gene inactivated - Cancer associated with p53 mutation - Conclusion - References ]]> Wed, 27 May 2020 17:13:43 GMT /slideshow/tumor-suppressor-gene-prb-p53-gene/234640230 6263234147@slideshare.net(6263234147) tumor suppressor gene, prb, p53 gene 6263234147 Introduction History Tumor suppressor gene- pRB - RB gene - Role of RB in regulation of cell cycle - Tumor associated with RB gene mutation Tumor suppressor gene- p53 - What is p53 gene? - Function of p53 gene - How it regulates cell cycle - What happen if p53 gene inactivated - Cancer associated with p53 mutation - Conclusion - References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527171343-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction History Tumor suppressor gene- pRB - RB gene - Role of RB in regulation of cell cycle - Tumor associated with RB gene mutation Tumor suppressor gene- p53 - What is p53 gene? - Function of p53 gene - How it regulates cell cycle - What happen if p53 gene inactivated - Cancer associated with p53 mutation - Conclusion - References

tumor suppressor gene, prb, p53 gene from KAUSHAL SAHU

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0 tumor suppressor gene by /slideshow/tumor-suppressor-gene-by/234640217 2-200527171331
Introduction Definition History Two hit hypothesis Functions Mutation in tumor suppressor genes What is mutation Inherited mutation of TSGs Acquired mutation of TSGs What is Oncogenes? TSGs and Oncogenes : Brakes and accelerators Stop and go signal Examples of TSGs: RB-The retinoblastoma gene P53 protein TSGs &cell suicide Conclusion References ]]>
Introduction Definition History Two hit hypothesis Functions Mutation in tumor suppressor genes What is mutation Inherited mutation of TSGs Acquired mutation of TSGs What is Oncogenes? TSGs and Oncogenes : Brakes and accelerators Stop and go signal Examples of TSGs: RB-The retinoblastoma gene P53 protein TSGs &cell suicide Conclusion References ]]> Wed, 27 May 2020 17:13:31 GMT /slideshow/tumor-suppressor-gene-by/234640217 6263234147@slideshare.net(6263234147) tumor suppressor gene by 6263234147 Introduction Definition History Two hit hypothesis Functions Mutation in tumor suppressor genes What is mutation Inherited mutation of TSGs Acquired mutation of TSGs What is Oncogenes? TSGs and Oncogenes : Brakes and accelerators Stop and go signal Examples of TSGs: RB-The retinoblastoma gene P53 protein TSGs &cell suicide Conclusion References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527171331-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Definition History Two hit hypothesis Functions Mutation in tumor suppressor genes What is mutation Inherited mutation of TSGs Acquired mutation of TSGs What is Oncogenes? TSGs and Oncogenes : Brakes and accelerators Stop and go signal Examples of TSGs: RB-The retinoblastoma gene P53 protein TSGs &cell suicide Conclusion References

tumor suppressor gene by from KAUSHAL SAHU

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0 tumor suppresor genes /slideshow/tumor-suppresor-genes/234640215 2-200527171327
Introduction Two-hit hypothesis History Functions Examples References ]]>
Introduction Two-hit hypothesis History Functions Examples References ]]> Wed, 27 May 2020 17:13:27 GMT /slideshow/tumor-suppresor-genes/234640215 6263234147@slideshare.net(6263234147) tumor suppresor genes 6263234147 Introduction Two-hit hypothesis History Functions Examples References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527171327-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Two-hit hypothesis History Functions Examples References

tumor suppresor genes from KAUSHAL SAHU

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0 tumor suppressor gene, prb, p53 /slideshow/tumor-suppressor-gene-prb-p53/234640213 2-200527171326
Introduction Tumor Suppressor Gene (TSG) History & types of mutation of TSG Examples of TSG [1] Prb – Retinoblastoma gene: Structure, Function & Action [2] p53-Gene: Structure ,function & Action Conclusion References ]]>
Introduction Tumor Suppressor Gene (TSG) History & types of mutation of TSG Examples of TSG [1] Prb – Retinoblastoma gene: Structure, Function & Action [2] p53-Gene: Structure ,function & Action Conclusion References ]]> Wed, 27 May 2020 17:13:26 GMT /slideshow/tumor-suppressor-gene-prb-p53/234640213 6263234147@slideshare.net(6263234147) tumor suppressor gene, prb, p53 6263234147 Introduction Tumor Suppressor Gene (TSG) History & types of mutation of TSG Examples of TSG [1] Prb – Retinoblastoma gene: Structure, Function & Action [2] p53-Gene: Structure ,function & Action Conclusion References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527171326-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Tumor Suppressor Gene (TSG) History & types of mutation of TSG Examples of TSG [1] Prb – Retinoblastoma gene: Structure, Function & Action [2] p53-Gene: Structure ,function & Action Conclusion References

tumor suppressor gene, prb, p53 from KAUSHAL SAHU

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0 transcription factor by kk sahu /slideshow/transcription-factor-by-kk-sahu/234639420 18transcriptionfactor-200527165515
INTRODUCTION -Transcription -Transcription Factors CLASSES OF TFs GENERAL TRANSCRIPTION FACTORS MEDIATOR FUNCTIONS -Formation of preinitiation complex -Elongation -Termination -Differential enhancement of transcription -Developmental REFERENCES ]]>
INTRODUCTION -Transcription -Transcription Factors CLASSES OF TFs GENERAL TRANSCRIPTION FACTORS MEDIATOR FUNCTIONS -Formation of preinitiation complex -Elongation -Termination -Differential enhancement of transcription -Developmental REFERENCES ]]> Wed, 27 May 2020 16:55:15 GMT /slideshow/transcription-factor-by-kk-sahu/234639420 6263234147@slideshare.net(6263234147) transcription factor by kk sahu 6263234147 INTRODUCTION -Transcription -Transcription Factors CLASSES OF TFs GENERAL TRANSCRIPTION FACTORS MEDIATOR FUNCTIONS -Formation of preinitiation complex -Elongation -Termination -Differential enhancement of transcription -Developmental REFERENCES <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/18transcriptionfactor-200527165515-thumbnail.jpg?width=120&height=120&fit=bounds" /> INTRODUCTION -Transcription -Transcription Factors CLASSES OF TFs GENERAL TRANSCRIPTION FACTORS MEDIATOR FUNCTIONS -Formation of preinitiation complex -Elongation -Termination -Differential enhancement of transcription -Developmental REFERENCES

transcription factor by kk sahu from KAUSHAL SAHU

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0 DNA repair by kk sahu /slideshow/dna-repair-by-kk-sahu/234639355 18dnarepair1-200527165335
INTRODUCTION ■ DNA DAMAGE ■ TYPES OF DNA REPAIR: ►BASE EXCISION REPAIR(BER) ►NUCLEOTIDE EXCISION REPAIR(NER) ►MISMATCH REPAIR ►HOMOLOGOUS RECOMBINATION REPAIR(HRR) ►NON-HOMOLOGOUS END JOINING(NHEJ) ■ CONCLUSION ■ REFERENCES ]]>
INTRODUCTION ■ DNA DAMAGE ■ TYPES OF DNA REPAIR: ►BASE EXCISION REPAIR(BER) ►NUCLEOTIDE EXCISION REPAIR(NER) ►MISMATCH REPAIR ►HOMOLOGOUS RECOMBINATION REPAIR(HRR) ►NON-HOMOLOGOUS END JOINING(NHEJ) ■ CONCLUSION ■ REFERENCES ]]> Wed, 27 May 2020 16:53:35 GMT /slideshow/dna-repair-by-kk-sahu/234639355 6263234147@slideshare.net(6263234147) DNA repair by kk sahu 6263234147 INTRODUCTION ■ DNA DAMAGE ■ TYPES OF DNA REPAIR: ►BASE EXCISION REPAIR(BER) ►NUCLEOTIDE EXCISION REPAIR(NER) ►MISMATCH REPAIR ►HOMOLOGOUS RECOMBINATION REPAIR(HRR) ►NON-HOMOLOGOUS END JOINING(NHEJ) ■ CONCLUSION ■ REFERENCES <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/18dnarepair1-200527165335-thumbnail.jpg?width=120&height=120&fit=bounds" /> INTRODUCTION ■ DNA DAMAGE ■ TYPES OF DNA REPAIR: ►BASE EXCISION REPAIR(BER) ►NUCLEOTIDE EXCISION REPAIR(NER) ►MISMATCH REPAIR ►HOMOLOGOUS RECOMBINATION REPAIR(HRR) ►NON-HOMOLOGOUS END JOINING(NHEJ) ■ CONCLUSION ■ REFERENCES

DNA repair by kk sahu from KAUSHAL SAHU

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0 membrane protein, synthesis by /slideshow/membrane-protein-synthesis-by/234639344 2-200527165319
Introduction Protein synthesis Synthesis of secretory proteins on membrane-bound ribosomes Processing of newly synthesized proteins in the ER Synthesis of integral membrane protein on membrane bound ribosomes Maintenance of membrane asymmetry Conclusion Reference ]]>
Introduction Protein synthesis Synthesis of secretory proteins on membrane-bound ribosomes Processing of newly synthesized proteins in the ER Synthesis of integral membrane protein on membrane bound ribosomes Maintenance of membrane asymmetry Conclusion Reference ]]> Wed, 27 May 2020 16:53:19 GMT /slideshow/membrane-protein-synthesis-by/234639344 6263234147@slideshare.net(6263234147) membrane protein, synthesis by 6263234147 Introduction Protein synthesis Synthesis of secretory proteins on membrane-bound ribosomes Processing of newly synthesized proteins in the ER Synthesis of integral membrane protein on membrane bound ribosomes Maintenance of membrane asymmetry Conclusion Reference <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527165319-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Protein synthesis Synthesis of secretory proteins on membrane-bound ribosomes Processing of newly synthesized proteins in the ER Synthesis of integral membrane protein on membrane bound ribosomes Maintenance of membrane asymmetry Conclusion Reference

membrane protein, synthesis by from KAUSHAL SAHU

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0 prokaryotic translation mechinry /slideshow/prokaryotic-translation-mechinry/234638518 2-200527163312
Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference ]]>
Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference ]]> Wed, 27 May 2020 16:33:12 GMT /slideshow/prokaryotic-translation-mechinry/234638518 6263234147@slideshare.net(6263234147) prokaryotic translation mechinry 6263234147 Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527163312-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference

prokaryotic translation mechinry from KAUSHAL SAHU

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0 translation mechinary /slideshow/221-translation-mechinary-234638512/234638512 2-200527163255
Defination of translation Components of translational machinery 1)Transfer RNA 2)Aminoacyl tRNA synthetase 3)Ribosomes 4)Messenger RNA PROKARYOTIC TRANSLATION EUKARYOTIC TRANSLATION NECESSITY OF TRANSLATION CONCLUSION ]]>
Defination of translation Components of translational machinery 1)Transfer RNA 2)Aminoacyl tRNA synthetase 3)Ribosomes 4)Messenger RNA PROKARYOTIC TRANSLATION EUKARYOTIC TRANSLATION NECESSITY OF TRANSLATION CONCLUSION ]]> Wed, 27 May 2020 16:32:55 GMT /slideshow/221-translation-mechinary-234638512/234638512 6263234147@slideshare.net(6263234147) translation mechinary 6263234147 Defination of translation Components of translational machinery 1)Transfer RNA 2)Aminoacyl tRNA synthetase 3)Ribosomes 4)Messenger RNA PROKARYOTIC TRANSLATION EUKARYOTIC TRANSLATION NECESSITY OF TRANSLATION CONCLUSION <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527163255-thumbnail.jpg?width=120&height=120&fit=bounds" /> Defination of translation Components of translational machinery 1)Transfer RNA 2)Aminoacyl tRNA synthetase 3)Ribosomes 4)Messenger RNA PROKARYOTIC TRANSLATION EUKARYOTIC TRANSLATION NECESSITY OF TRANSLATION CONCLUSION

translation mechinary from KAUSHAL SAHU

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0 translation cycle, protein synnthesis /slideshow/translation-cycle-protein-synnthesis/234638481 2-200527163210
Introduction Definition History central dogma Major components mRNA,tRNA,rRNA Energy source Amino acids Protien factor Enzymes Inorganic ions Step involves in translation: Aminoacylation of tRNA Initiation Elongation termination Importance of translation Conclusion Reference ]]>
Introduction Definition History central dogma Major components mRNA,tRNA,rRNA Energy source Amino acids Protien factor Enzymes Inorganic ions Step involves in translation: Aminoacylation of tRNA Initiation Elongation termination Importance of translation Conclusion Reference ]]> Wed, 27 May 2020 16:32:10 GMT /slideshow/translation-cycle-protein-synnthesis/234638481 6263234147@slideshare.net(6263234147) translation cycle, protein synnthesis 6263234147 Introduction Definition History central dogma Major components mRNA,tRNA,rRNA Energy source Amino acids Protien factor Enzymes Inorganic ions Step involves in translation: Aminoacylation of tRNA Initiation Elongation termination Importance of translation Conclusion Reference <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527163210-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Definition History central dogma Major components mRNA,tRNA,rRNA Energy source Amino acids Protien factor Enzymes Inorganic ions Step involves in translation: Aminoacylation of tRNA Initiation Elongation termination Importance of translation Conclusion Reference

translation cycle, protein synnthesis from KAUSHAL SAHU

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0 co and post translation modification, by /slideshow/co-and-post-translation-modification-by/234638476 2-200527163201
1-Introduction 2-Protein modifications [A] Folding 1-Chaperon mediated 2-Enzymatic [B] Cleavage [C] Glycosylation [D] Attachment of Lipids [E] Proteolysis 3-Conclusion 4-Reference ]]>
1-Introduction 2-Protein modifications [A] Folding 1-Chaperon mediated 2-Enzymatic [B] Cleavage [C] Glycosylation [D] Attachment of Lipids [E] Proteolysis 3-Conclusion 4-Reference ]]> Wed, 27 May 2020 16:32:01 GMT /slideshow/co-and-post-translation-modification-by/234638476 6263234147@slideshare.net(6263234147) co and post translation modification, by 6263234147 1-Introduction 2-Protein modifications [A] Folding 1-Chaperon mediated 2-Enzymatic [B] Cleavage [C] Glycosylation [D] Attachment of Lipids [E] Proteolysis 3-Conclusion 4-Reference <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527163201-thumbnail.jpg?width=120&height=120&fit=bounds" /> 1-Introduction 2-Protein modifications [A] Folding 1-Chaperon mediated 2-Enzymatic [B] Cleavage [C] Glycosylation [D] Attachment of Lipids [E] Proteolysis 3-Conclusion 4-Reference

co and post translation modification, by from KAUSHAL SAHU

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0 co and post translation modification /slideshow/co-and-post-translation-modification/234638473 2-200527163157
Introduction Protein modifications Folding Chaperon mediated Enzymatic Cleavage Addition of functional groups Chemical groups Hydrophobic groups Proteolysis Conclusion Reference ]]>
Introduction Protein modifications Folding Chaperon mediated Enzymatic Cleavage Addition of functional groups Chemical groups Hydrophobic groups Proteolysis Conclusion Reference ]]> Wed, 27 May 2020 16:31:57 GMT /slideshow/co-and-post-translation-modification/234638473 6263234147@slideshare.net(6263234147) co and post translation modification 6263234147 Introduction Protein modifications Folding Chaperon mediated Enzymatic Cleavage Addition of functional groups Chemical groups Hydrophobic groups Proteolysis Conclusion Reference <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200527163157-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Protein modifications Folding Chaperon mediated Enzymatic Cleavage Addition of functional groups Chemical groups Hydrophobic groups Proteolysis Conclusion Reference

co and post translation modification from KAUSHAL SAHU

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0 Prokaryotic transcription by kk /slideshow/prokaryotic-transcription-by-kk/234113253 pro-200516173109
INTRODUCTION HISTORY WHAT IS TRANSCRIPTION PROKARYOTIC TRANSCRIPTION STEPS OF TRANSCRIPTION HOW TRANSCRIPTION OCCURS PROCESS OF TRANSCRIPTION Initiation Elongation Termination CONCLUSION REFRENCES ]]>
INTRODUCTION HISTORY WHAT IS TRANSCRIPTION PROKARYOTIC TRANSCRIPTION STEPS OF TRANSCRIPTION HOW TRANSCRIPTION OCCURS PROCESS OF TRANSCRIPTION Initiation Elongation Termination CONCLUSION REFRENCES ]]> Sat, 16 May 2020 17:31:09 GMT /slideshow/prokaryotic-transcription-by-kk/234113253 6263234147@slideshare.net(6263234147) Prokaryotic transcription by kk 6263234147 INTRODUCTION HISTORY WHAT IS TRANSCRIPTION PROKARYOTIC TRANSCRIPTION STEPS OF TRANSCRIPTION HOW TRANSCRIPTION OCCURS PROCESS OF TRANSCRIPTION Initiation Elongation Termination CONCLUSION REFRENCES <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/pro-200516173109-thumbnail.jpg?width=120&height=120&fit=bounds" /> INTRODUCTION HISTORY WHAT IS TRANSCRIPTION PROKARYOTIC TRANSCRIPTION STEPS OF TRANSCRIPTION HOW TRANSCRIPTION OCCURS PROCESS OF TRANSCRIPTION Initiation Elongation Termination CONCLUSION REFRENCES

Prokaryotic transcription by kk from KAUSHAL SAHU

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0 Enzyme Kinetics and thermodynamic analysis /slideshow/enzyme-kinetics-and-thermodynamic-analysis/234113233 kineticsandthermodynamicanalysisinenzyme-200516173027
Introduction Kinetics and thermodynamicSG Thermodynamic in enzymatic reactions balanced equations in chemical reactions changes in free energy determine the direction & equilibrium state of chemical reactions the rates of reactions Factors effecting enzymatic activity (i) Enzyme concentration. (ii) Substrate concentration. (iii)Temperature (iv) pH. (v) Activators. (vi)Inhibitors Michaelis-menten equation CONCLUSIONS REFERENECES ]]>
Introduction Kinetics and thermodynamicSG Thermodynamic in enzymatic reactions balanced equations in chemical reactions changes in free energy determine the direction & equilibrium state of chemical reactions the rates of reactions Factors effecting enzymatic activity (i) Enzyme concentration. (ii) Substrate concentration. (iii)Temperature (iv) pH. (v) Activators. (vi)Inhibitors Michaelis-menten equation CONCLUSIONS REFERENECES ]]> Sat, 16 May 2020 17:30:27 GMT /slideshow/enzyme-kinetics-and-thermodynamic-analysis/234113233 6263234147@slideshare.net(6263234147) Enzyme Kinetics and thermodynamic analysis 6263234147 Introduction Kinetics and thermodynamicSG Thermodynamic in enzymatic reactions balanced equations in chemical reactions changes in free energy determine the direction & equilibrium state of chemical reactions the rates of reactions Factors effecting enzymatic activity (i) Enzyme concentration. (ii) Substrate concentration. (iii)Temperature (iv) pH. (v) Activators. (vi)Inhibitors Michaelis-menten equation CONCLUSIONS REFERENECES <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/kineticsandthermodynamicanalysisinenzyme-200516173027-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Kinetics and thermodynamicSG Thermodynamic in enzymatic reactions balanced equations in chemical reactions changes in free energy determine the direction & equilibrium state of chemical reactions the rates of reactions Factors effecting enzymatic activity (i) Enzyme concentration. (ii) Substrate concentration. (iii)Temperature (iv) pH. (v) Activators. (vi)Inhibitors Michaelis-menten equation CONCLUSIONS REFERENECES

Enzyme Kinetics and thermodynamic analysis from KAUSHAL SAHU

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0 Chromatin, Organization macromolecule complex /slideshow/chromatin-organization-macromolecule-complex/234113232 chromatin01-200516173027
MICROMOLECULES TYPES OF MICROMOLECULES CHROMATIN NUCLEOOME HISTONE GENERAL STEP IN CHROMATIN ASSEMBLY ORGANIZATION OF CHROMATIN CONCLUSIONS REFERENCE ]]>
MICROMOLECULES TYPES OF MICROMOLECULES CHROMATIN NUCLEOOME HISTONE GENERAL STEP IN CHROMATIN ASSEMBLY ORGANIZATION OF CHROMATIN CONCLUSIONS REFERENCE ]]> Sat, 16 May 2020 17:30:27 GMT /slideshow/chromatin-organization-macromolecule-complex/234113232 6263234147@slideshare.net(6263234147) Chromatin, Organization macromolecule complex 6263234147 MICROMOLECULES TYPES OF MICROMOLECULES CHROMATIN NUCLEOOME HISTONE GENERAL STEP IN CHROMATIN ASSEMBLY ORGANIZATION OF CHROMATIN CONCLUSIONS REFERENCE <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/chromatin01-200516173027-thumbnail.jpg?width=120&height=120&fit=bounds" /> MICROMOLECULES TYPES OF MICROMOLECULES CHROMATIN NUCLEOOME HISTONE GENERAL STEP IN CHROMATIN ASSEMBLY ORGANIZATION OF CHROMATIN CONCLUSIONS REFERENCE

Chromatin, Organization macromolecule complex from KAUSHAL SAHU

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0 Receptor mediated endocytosis by kk /slideshow/receptor-mediated-endocytosis-by-kk/234113014 2-200516172232
Introduction History Endocytosis Pathways Clathrin mediated endocytosis Caveolae Pinocytosis Phagocytosis RECEPTOR mediated endocytosis Types of ligands Types of receptor Formation of clathrin coated vesicle Early endosome Late endosome Lysosomes Genetic disease LDL Receptor Conclusion References ]]>
Introduction History Endocytosis Pathways Clathrin mediated endocytosis Caveolae Pinocytosis Phagocytosis RECEPTOR mediated endocytosis Types of ligands Types of receptor Formation of clathrin coated vesicle Early endosome Late endosome Lysosomes Genetic disease LDL Receptor Conclusion References ]]> Sat, 16 May 2020 17:22:32 GMT /slideshow/receptor-mediated-endocytosis-by-kk/234113014 6263234147@slideshare.net(6263234147) Receptor mediated endocytosis by kk 6263234147 Introduction History Endocytosis Pathways Clathrin mediated endocytosis Caveolae Pinocytosis Phagocytosis RECEPTOR mediated endocytosis Types of ligands Types of receptor Formation of clathrin coated vesicle Early endosome Late endosome Lysosomes Genetic disease LDL Receptor Conclusion References <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200516172232-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction History Endocytosis Pathways Clathrin mediated endocytosis Caveolae Pinocytosis Phagocytosis RECEPTOR mediated endocytosis Types of ligands Types of receptor Formation of clathrin coated vesicle Early endosome Late endosome Lysosomes Genetic disease LDL Receptor Conclusion References

Receptor mediated endocytosis by kk from KAUSHAL SAHU

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0 Recepter mediated endocytosis by kk ashu /slideshow/recepter-mediated-endocytosis-by-kk-ashu/234112992 2-200516172149
INTRODUCTION DEFINITION OF RECEPTOR MEDIATED ENDOCYTOSIS WHAT TYPE OF LIGANDS ENTER BY RME? FORMATION OF CLATHRIN-COATED VESICLES TRISKELIONS ROLE OF DYNAMIN IN THE FORMATION OF CLATHRIN-COATED VESICLES ROLE OF PHOSPHOLIPIDS IN THE FORMATION OF COATED VESICLES ENDOCYTIC PATHWAY LDLs AND CHOLESTROL METABOLISM CONCLUSION REFERENCES ]]>
INTRODUCTION DEFINITION OF RECEPTOR MEDIATED ENDOCYTOSIS WHAT TYPE OF LIGANDS ENTER BY RME? FORMATION OF CLATHRIN-COATED VESICLES TRISKELIONS ROLE OF DYNAMIN IN THE FORMATION OF CLATHRIN-COATED VESICLES ROLE OF PHOSPHOLIPIDS IN THE FORMATION OF COATED VESICLES ENDOCYTIC PATHWAY LDLs AND CHOLESTROL METABOLISM CONCLUSION REFERENCES ]]> Sat, 16 May 2020 17:21:49 GMT /slideshow/recepter-mediated-endocytosis-by-kk-ashu/234112992 6263234147@slideshare.net(6263234147) Recepter mediated endocytosis by kk ashu 6263234147 INTRODUCTION DEFINITION OF RECEPTOR MEDIATED ENDOCYTOSIS WHAT TYPE OF LIGANDS ENTER BY RME? FORMATION OF CLATHRIN-COATED VESICLES TRISKELIONS ROLE OF DYNAMIN IN THE FORMATION OF CLATHRIN-COATED VESICLES ROLE OF PHOSPHOLIPIDS IN THE FORMATION OF COATED VESICLES ENDOCYTIC PATHWAY LDLs AND CHOLESTROL METABOLISM CONCLUSION REFERENCES <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200516172149-thumbnail.jpg?width=120&height=120&fit=bounds" /> INTRODUCTION DEFINITION OF RECEPTOR MEDIATED ENDOCYTOSIS WHAT TYPE OF LIGANDS ENTER BY RME? FORMATION OF CLATHRIN-COATED VESICLES TRISKELIONS ROLE OF DYNAMIN IN THE FORMATION OF CLATHRIN-COATED VESICLES ROLE OF PHOSPHOLIPIDS IN THE FORMATION OF COATED VESICLES ENDOCYTIC PATHWAY LDLs AND CHOLESTROL METABOLISM CONCLUSION REFERENCES

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0 Protein sorting and targeting /slideshow/protein-sorting-and-targeting-234112941/234112941 2-200516171939
The delivery of newly synthesized protein to their proper cellular destination, usually referred to as protein targeting or sorting. The mode of protein transport depends chiefly on the location in the cell cytoplasm of the polysomes involved in protein synthesis. There are two modes of protein sorting:- 1) Co - translational Transportation. 2) Post - translational Transportation. ]]>
The delivery of newly synthesized protein to their proper cellular destination, usually referred to as protein targeting or sorting. The mode of protein transport depends chiefly on the location in the cell cytoplasm of the polysomes involved in protein synthesis. There are two modes of protein sorting:- 1) Co - translational Transportation. 2) Post - translational Transportation. ]]> Sat, 16 May 2020 17:19:38 GMT /slideshow/protein-sorting-and-targeting-234112941/234112941 6263234147@slideshare.net(6263234147) Protein sorting and targeting 6263234147 The delivery of newly synthesized protein to their proper cellular destination, usually referred to as protein targeting or sorting. The mode of protein transport depends chiefly on the location in the cell cytoplasm of the polysomes involved in protein synthesis. There are two modes of protein sorting:- 1) Co - translational Transportation. 2) Post - translational Transportation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200516171939-thumbnail.jpg?width=120&height=120&fit=bounds" /> The delivery of newly synthesized protein to their proper cellular destination, usually referred to as protein targeting or sorting. The mode of protein transport depends chiefly on the location in the cell cytoplasm of the polysomes involved in protein synthesis. There are two modes of protein sorting:- 1) Co - translational Transportation. 2) Post - translational Transportation.

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0 Prokaryotic translation machinery by kk /slideshow/prokaryotic-translation-machinery-by-kk/234112905 2-200516171823
Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference ]]>
Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference ]]> Sat, 16 May 2020 17:18:23 GMT /slideshow/prokaryotic-translation-machinery-by-kk/234112905 6263234147@slideshare.net(6263234147) Prokaryotic translation machinery by kk 6263234147 Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200516171823-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Definition Factors required for Translation Formation of aminoacyl t-RNA 1)Activation of amino acid 2) Transfer of amino acid to t-RNA Translation involves following steps:- 1)Initiation 2)Elongation 3)Termination Conclusion Reference

Prokaryotic translation machinery by kk from KAUSHAL SAHU

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0 eukaryotic translation machinery by kk sahu /slideshow/eukaryotic-translation-machinery-by-kk-sahu/234112765 2-200516171249
Introduction Components of protein synthesis Translation in eukaryotes 1.initiation 2.elongation 3.Termination Conclusion references ]]>
Introduction Components of protein synthesis Translation in eukaryotes 1.initiation 2.elongation 3.Termination Conclusion references ]]> Sat, 16 May 2020 17:12:49 GMT /slideshow/eukaryotic-translation-machinery-by-kk-sahu/234112765 6263234147@slideshare.net(6263234147) eukaryotic translation machinery by kk sahu 6263234147 Introduction Components of protein synthesis Translation in eukaryotes 1.initiation 2.elongation 3.Termination Conclusion references <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2-200516171249-thumbnail.jpg?width=120&height=120&fit=bounds" /> Introduction Components of protein synthesis Translation in eukaryotes 1.initiation 2.elongation 3.Termination Conclusion references

eukaryotic translation machinery by kk sahu from KAUSHAL SAHU

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0 https://cdn.slidesharecdn.com/profile-photo-6263234147-48x48.jpg?cb=1736613349 https://cdn.slidesharecdn.com/ss_thumbnails/2-200527171343-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/tumor-suppressor-gene-prb-p53-gene/234640230 tumor suppressor gene,... https://cdn.slidesharecdn.com/ss_thumbnails/2-200527171331-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/tumor-suppressor-gene-by/234640217 tumor suppressor gene by https://cdn.slidesharecdn.com/ss_thumbnails/2-200527171327-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/tumor-suppresor-genes/234640215 tumor suppresor genes