当前课程知识点:Molecular Biology > Week 4 ( 1.) Basic Methods of Gene Structure and Expression Analysis > 5.2 Polymerase chain reaction > 5.2 Polymerase chain reaction
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-1.1 The research content of molecular biology
--1.1 The research content of molecular biology
--1.1 The research content of molecular biology
-1.2 Important events in the development of molecular biology
--1.2 Important events in the development of molecular biology
--1.2 Important events in the development of molecular biology
-1.3 Molecular Biology and Related Disciplines
--1.3 Molecular Biology and Related Disciplines
--1.3 Molecular Biology and Related Disciplines
-2.1 The Concept and Structure of Genes
--2.1 The Concept and Structure of Genes
--2.1 The concept and structure of genes
-2.2 Prokaryotic genome
-2.3 Eukaryotic genome
-2.4 Viral genome
-Unit assignment for week 1
-3.1 The common characteristics of gene expression in prokaryotes and eukaryotes
--3.1The common characteristics of gene expression in prokaryotes and eukaryotes
--3.1The common characteristics of gene expression in prokaryotes and eukaryotes
-3.2 Mechanism of gene expression regulation in prokaryotes
--3.2Mechanism of gene expression regulation in prokaryotes
--3.2Mechanism of gene expression regulation in prokaryotes
-3.3 Characteristics and regulation of genomic DNA expression in eukaryotes
--3.3 Characteristics and regulation of genomic DNA expression in eukaryotes
--3.3 Characteristics and regulation of genomic DNA expression in eukaryotes
-3.4 Regulation of eukaryotic gene expression at transcriptional and post-transcriptional level
--3.4Regulation of eukaryotic gene expression at transcriptional and post-transcriptional level
--3.4 Regulation of eukaryotic gene expression at transcriptional and post-transcriptional level
-4.1 Causes and Consequences of DNA Damage
--4.1Causes and Consequences of DNA Damage
--4.1Causes and Consequences of DNA Damage
-4.2 Mismatch Repair and Direct Repair
--4.2 Mismatch Repair and Direct Repair
--4.2 Mismatch Repair and Direct Repair
-4.3 Base Excision Repair and Nucleotide Excision Repair
--4.3 Base Excision Repair and Nucleotide Excision Repair
--4.3 Base Excision Repair and Nucleotide Excision Repair
-4.4 Recombination Repair and SOS Repair System
--4.4 Recombination Repair and SOS Repair System
--4.4 Recombination Repair and SOS Repair System
-Unit assignment for week 3
-5.1 DNA sequence analysis
-5.2 Polymerase chain reaction
--5.2 Polymerase chain reaction
--5.2 Polymerase chain reaction
-5.3 Real-time fluorescence quantitative PCR
--5.3 Real-time fluorescence quantitative PCR
--5.3 Real-time fluorescence quantitative PCR
-5.4 Nucleic acid molecular hybridization techniques
--5.4 Nucleic acid molecular hybridization techniques
--5.4 Nucleic acid molecular hybridization techniques
-6.1 Principal enzymes used in gene cloning
--6.1 Principal enzymes used in gene cloning
--6.1 Principal enzymes used in gene cloning
-6.2 Vectors for Gene cloning
--6.2 Vectors for Gene cloning
-- 6.2 Vectors for Gene cloning
-6.3 The principal process of gene cloning
--6.3 The principal process of gene cloning
--6.3 The principal process of gene cloning
-6.4 The E.coli expression system
--6.4 The E.coli expression system
--6.4 The E.coli expression system
-Unit assignment for week 4
-7.1 The Concept and History of Proteomics
--7.1 The Concept and History of Proteomics
--7.1 The Concept and History of Proteomics
-7.2 Research method of proteome expression pattern--Two-dimensional electrophoresis
--7.2 Research method of proteome expression pattern--Two-dimensional electrophoresis
--7.2 Research method of proteome expression pattern--Two-dimensional electrophoresis
-7.3 Research method of proteome expression pattern-- Mass spectrometr
--7.3 Research method of proteome expression pattern-- Mass spectrometry
--7.3 Research method of proteome expression pattern-- Mass spectrometry
-7.4 Research Methods of Proteome Functional pattern
--7.4 Research Methods of Proteome Functional pattern
--7.4 Research Methods of Proteome Functional pattern
-Unit assignment for week 5
-8.1 Abormalities in genes and proteins are the molecular basis of diseases
--8.1 Abormalities in genes and proteins are the molecular basis of diseases
--8.1 Abormalities in genes and proteins are the molecular basis of diseases
-8.2 Cell-related factors cause abnormal gene expression and cause disease
--8.2 Cell-related factors cause abnormal gene expression and cause disease
--8.2 Cell-related factors cause abnormal gene expression and cause disease
-9.1 Concept, Features and Strategies of Gene Diagnosis
--9.1 Concept, Features and Strategies of Gene Diagnosis
--9.1 Concept, Features and Strategies of Gene Diagnosis
-9.2 Molecular Biology Techniques Commonly Used in Gene Diagnosis
--9.2 Molecular Biology Techniques Commonly Used in Gene Diagnosis I
--9.2 Molecular Biology Techniques Commonly Used in Gene Diagnosis I
-9.3 Molecular Biology Techniques Commonly Used in Gene Diagnosis II
--9.3 Molecular Biology Techniques Commonly Used in Gene Diagnosis II
--9.3 Molecular Biology Techniques Commonly Used in Gene Diagnosis II
-9.4 Gene Diagnosis of Sickle Cell Disease
--9.4 Gene Diagnosis of Sickle Cell Disease
--9.4 Gene Diagnosis of Sickle Cell Disease
-Unit assignment for week 6
-10.1 Basic strategies for gene therapy
--10.1 Basic strategies for gene therapy
--10.1 Basic strategies for gene therapy
-10.2 Gene transfer
-10.3 Gene interference
-10.4 Controlled expression of therapeutic genes
--10.4 Controlled expression of therapeutic genes
--10.4 Controlled expression of therapeutic genes
-10.5 Application of gene therapy
--10.5 Application of gene therapy
--10.5 Application of gene therapy
-Unit assignment for week 7
-Final Exam
