File Name: molecular biology of the cell 4th edition alberts slides chapter 12.zip
Campbell Biology 11th Global Edition. Campbell Biology 10th Edition. Campbell Biology 11th Edition. Note: There are 2 versions of each powerpoint lecture. Item Preview.
Log in Get Started. TAGS: target cell receptors slide intracellular receptors types of cell communication controls nervecell production chemical signals extracellular signal secreted molecule slide. Download for free Report this document. Embed Size px x x x x There are four types of cell communication: A endocrine: to long distance, B papacrine: to nearby neighbor Slide 8 C Neuronal signaling, D contact-dependent: dont need secreted molecule Slide 9 Figure Essential Cell Biology Garland Science Contact-dependent signaling controls nerve-cell production: Each future neuron delivers an inhibitory signal to the cells next to it to deter them from specializing as neurons too Slide 10 Table part 1 of 2 Essential Cell Biology Garland Science Slide 11 Table part 2 of 2 Essential Cell Biology Garland Science Slide 12 Home work: List all the signal molecule, its site of origin, its destination and function. Quiz will be given next week.
You have remained in right site to begin getting this info. Save chemistry silberberg edition: 6th to get e-mail alerts and updates on your eBay Feed. Virtual Issues. Silberberg and Patricia G. Amateis in pdf.
William Astbury described molecular biology in in Nature , as:. It is concerned particularly with the forms of biological molecules and [ It must at the same time inquire into genesis and function.
Molecular Imaging pp Cite as. Molecular biology is the study of biology on molecular level. The field overlaps with areas of biology and chemistry, particularly genetics and biochemistry. Molecular biology chiefly concerns itself with understanding the interactions between the various systems of a cell, including the interactions between DNA deoxyribonucleic acid , RNA Ribonucleic acid and protein biosynthesis as well as learning how these interactions are regulated . Skip to main content Skip to sections.
With the fast development of high throughput technologies such as microarray and next generation sequencing NGS , bioinformatics becomes an essential part of biomedical research on human diseases. Analysis of the large amount of high throughput data becomes the new bottleneck in many research projects. The goal of this course is to let students get familiar with the commonly used bioinformatics data analysis tools via hands-on training and discussion on both classical and state-of-the-art literature. The topics include analysis and visualization of both microarray and NGS data for genotyping, and epigenomics, and transcriptome studies in human diseases as well as advanced methods based on gene network inference and analysis. Grading Assistant : Instructors.