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Biology Lecture Table

 

Lecture

MIT 7.012

 Introduction to Biology

 Fall 2004

MIT 7.014

 Introduction to Biology

 Spring 2005

UCBerkeley

 Biology 1A -

UCBerkeley

Biology 1B -

There are 3 of each lecture for this. I choose one but you may want to choose a different one

    

 

 

 

01

Introduction

Introduction

Introduction to macromolecules

Introduction / Fungi

Lecture 01

Lecture 01

Lecture 01

Lecture 01

02

Biochemistry 1

Biochemistry I

lipids, carbohydrates and nucleic acids

Algae, Mosses, Lower Vascular Plants

Lecture 02

Lecture 02

Lecture 02

Lecture 02

03

N/A

Biochemistry II

Cell structure and organization -#1

Ferns and Gymnosperms

Lecture 03

Lecture 03

Lecture 03

Lecture 03

04

Biochemistry 3

Biochemistry III

Cell structure and organization -#2

Angiosperms 1

Lecture 04

Lecture 04

Lecture 04

Lecture 04

05

Biochemistry 4

Biochemistry IV

The structure of biological membranes

Interspecific Relationships

Lecture 05

Lecture 05

Lecture 05

Lecture 05

06

Genetics 1

Biochemistry V

Cellular metabolism and biological c

Community Ecology

Lecture 06

Lecture 06

Lecture 06

Lecture 06

07

Genetics 2

Biochemistry VI

Enzyme structure

Roots, Structure and Development

Lecture 07

Lecture 07

Lecture 07

Lecture 07

08

Genetics 3

Biochemistry VI (cont.)

Regulation of enzymatic activity

Ecosystem Ecology

Lecture 08

Lecture 08

Lecture 08

Lecture 08

09

Human Genetics

Molecular Biology I

Introduction to bioenergetics

Ecosystem Ecology 2

Lecture 09

Lecture 09

Lecture 09

Lecture 09

10

Molecular Biology 1

Molecular Biology II

Cellular energy production and anae

Plant Growth Substances 1

Lecture 10

Lecture 10

Lecture 10

Lecture 10

11

Molecular Biology 2

Molecular Biology II - cont.?

Cellular energy production and aero

Plant Growth Substances 2

Lecture 11

Lecture 11

Lecture 11

Lecture 11

12

Molecular Biology 3

Molecular Biology III

Photosynthesis-the light reactions

Flowering

Lecture 12

Lecture 12

Lecture 12

Lecture 12

13

Gene Regulation

Molecular Biology IV

Photosynthesis-CO2 fixation and rel

Water Relations

Lecture 13

Lecture 13

Lecture 13

Lecture 13

14

Protein Localization

Molecular Biology IV (cont.)

How Somatic Cells (Mitosis) and Gam

Water Relations, Mineral Nutrition,

Lecture 14

Lecture 14

Lecture 14

Lecture 14

15

Recombinant DNA 1

Bacterial Genetics

DNA Replication and the PCR

Darwin and the Origin of Species II

Lecture 15

Lecture 15

Lecture 15

Lecture 15

16

Recombinant DNA 2

The Biosphere

Cell Cycle, Mitosis and Reproductio

Population Genetics I: Mendel, Darw

Lecture 16

Lecture 16

Lecture 16

Lecture 16

17

Recombinant DNA 3

Carbon and Energy Metabolism

Chromosomes, Checkpoints, and Cance

Population Genetics II: Mutation an

Lecture 17

Lecture 17

Lecture 17

Lecture 17

18

Recombinant DNA 4

Productivity and Food Webs

Meiosis and Sexual Life Cycle

Population processes and inheritanc

Lecture 18

Lecture 18

Lecture 18

Lecture 18

19

Cell Cycle/Signaling

Regulation of Productivity

Gregor Mendel and 2 of Biologys 3 L

Mutation and selection theory

Lecture 19

Lecture 19

Lecture 19

Lecture 19

20

Cancer

Limiting Factors and Biogeochemical Cycles

Recombination, Linkage and Mapping

Genetic drift and migration

Lecture 20

Lecture 20

Lecture 20

Lecture 20

21

Virology/Tumor Viruses

Mendelian Genetics

Transcription

Recombination, sexual reproduction

Lecture 21

Lecture 21

Lecture 21

Lecture 21

22

Immunology 1

Mitosis and Meiosis

The Genetic Code and Translation

Sexual selection; coevolution

Lecture 22

Lecture 22

Lecture 22

Lecture 22

23

Immunology 2

Diploid Genetics

Prokaryotic Gene Regulation

Species concepts, - reprod isolatio

Lecture 23

Lecture 23

Lecture 23

Lecture 23

24

AIDS

Recombinant DNA I

How To Isolate, Study and Use Genes

Speciation processes (cont)

 

Lecture 24

Lecture 24

Lecture 24

Lecture 24

25

Genomics

Recombinant DNA II

Human Genetics and Epigenetics

Fossil record - macroevol trends

 

Lecture 25

Lecture 25

Lecture 25

Lecture 25

26

Nervous System 1

Recombinant DNA III

GMOs and Organismal Cloning

Fossils, evo-devo and evolution of

 

Lecture 26

Lecture 26

Lecture 26

Lecture 26

27

Nervous System 2

Recombinant DNA III (cont.)

Multi-cellularity: Cell Shape and f

Human evolution and evolutionary me

 

Lecture 27

Lecture 27

Lecture 27

Lecture 27

28

Nervous System 3

Population Growth I

Intercellular and Physiological Com

Disease and disease control

 

Lecture 28

Lecture 28

Lecture 28

Lecture 28

29

Stem Cells/Cloning 1

Population Growth I

Intercellular and Physiological Com

Population Growth

 

Lecture 29

Lecture 29

Lecture 29

Lecture 29

30

Stem Cells/Cloning 2

Population Growth II

Reproductive system-Part I

Dynamics of Populations

 

Lecture 30

Lecture 30

Lecture 30

Lecture 30

31

Molecular Medicine 1

Population Genetics and Evolution

Reproductive system-Part II

Angiosperm life cycle and diversity

 

Lecture 31

Lecture 31

Lecture 31

Lecture 31

32

Molecular Evolution

Molecular Evolution

Fertilization and embryogenesis

Organism Interactions and Competiti

 

Lecture 32

Lecture 32

Lecture 32

Lecture 32

33

 

Communities I

Developmental strategies and mechan

Ecological Studies

 

Lecture 33

Lecture 33

Lecture 33

Lecture 33

34

 

Communities II

Digestive system

Introduction to plant morphology

 

Lecture 34

Lecture 34

Lecture 34

Lecture 34

35

 

 

Circulatory and Respiratory systems

Shoot morphology, anatomy and gro

 

Lecture 35

Lecture 35

Lecture 35

Lecture 35

36

    

Immune system

Shoot growth - cont - and modificat          
    37     Excretory system and kidney functio Root absorption and modifications          
    38     Cell and Tissue dysfunction, Cancer Water and nutrient transport          
    39     Integration: The nervous system Plant hormones and growth          

 

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