Login | Signup now       

Guest

 Click to see how  

HOME | VIDEOS | DOCUMENTS | COLLECTIONS | UPLOAD | BROADCAST | MY ACCOUNT | FEEDBACK | ABOUT

 
Category:Biology
 
 Documents
 
   Featured
   Most Viewed
   Most Recent
   Most Discussed
 
 All Subjects
 
  Aeronautics and A...   
  Anthropology   
  Architecture   
  Arts   
  Astronomy   
  Bioengineering   
  Biology   
  Business and Mana...   
  Chemistry and Che...   
  Civil and Environ...   
  Cognitive Science   
  Communications   
  Computer Science   
  Earth and Atmosph...   
  Economics   
  Education   
  Electrical Engine...   
  Energy   
  Entrepreneurship ...   
  History   
  Humanities   
  Journalism   
  Laboratory Equipm...   
  Languages and Lit...   
  Linguistics   
  Material Science ...   
  Mathematics   
  Mechanical Engine...   
  Media Arts   
  Medical Sciences   
  Music   
  Nanoscience and N...   
  Neuroscience   
  Nuclear Engineeri...   
  Oceanography and ...   
  Philosophy   
  Physics   
  Political Science   
  Psychology   
  Public Health   
  Robotics and Arti...   
  Softwares and Pro...   
  Uncategorized   
 

 

 

 

 

 

 

Title          
 Sequence Alignment and Molecular Visualizatio... 
 
Abstract
 The purpose of this assignment is to help you become more familiar with sequence alignment and molecular visualization. In this assignment, you will perform a sequence alignment of glycoside hydrolase family 1 enzymes. For one of the enzymes, you will generate an informative image using VMD.

Go to the CAZY web site (www.cazy.org). Click on the button labeled “GH” to get into the glycoside hydrolase families of enzymes. Scroll down to the table in which the various families are enumerated. Click on “1” to go to the family 1 enzymes. Select 10 enzymes from this long list for a sequence alignment. You will probably have the fewest problems if you choose enzymes from only one kingdom (i.e., archaea, eubacteria, and eukaryotes), and I would recommend using enzymes from eukaryotes. Within a given kingdom, you should choose the enzyme from 10 different organisms (their organism names will be different). Also, one of your choices should be an enzyme for which a 3-D crystal structure is available.

Use Biology Workbench to perform a multiple sequence alignment (MSA) of the 10 sequences. I think you will find it easiest if you paste in the sequences using FASTA format. This format should be available for all enzymes...
 
Go to document page
 
Added By - gaurav_dogra
Subject - Biology
Document Type - Assignment
 
 
   
   

 

Title          
 siRNA and gene silencing 
 
Abstract
 An undergraduate term paper discussing the mechanism of siRNA and its uses in gene silencing for various congenital diseases as well as cancer.
 
Go to document page
 
Added By - Ipshita Chakraborty
Subject - Biology
Document Type - UG Research
 
 
   
   

 

Title          
 Chemotaxis and morphogenesis-a review 
 
Abstract
 This document is the introductory portion of my master's thesis that was about the characterization of a passive/active diffusion microfluidic device. The thesis goes in details over the design as well as analytical and computational modeling of such devices. The introduction reviews the history of development of devices of this class.
 
Go to document page
 
Added By - Ipshita Chakraborty
Subject - Biology
Document Type - MS Thesis
 
 
   
   

Page 1 of 1