User talk:Hossein Azari Soufiani

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input()
input()
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== Project Human 2.0==  
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== Project ==  
I may be totally wrong but I want to try and understand the information structure in different evolutionary dynamics.
I may be totally wrong but I want to try and understand the information structure in different evolutionary dynamics.

Revision as of 15:25, 29 September 2009

Report of Second Homework

The paper "Foundations for the Engineering Biology" was really interesting for me because I am an engineer and I like to see the problems from engineering point of view. The paper was written in a very classic engineering manner and it made understanding of our position in Bioengineering more clear for me.

Installing and preparing Python was very different than the other programs which I used before like Matlab, C++. I enjoyed using it, specially the object oriented programing ability makes it really powerful. Plot for Python is very similar to Matlab and we have same commands with a little bit difference. Here you see a plot for three different growth rates for exponential function plotted with different colors.

Image:plot1.jpg

Code for Third Homework

import random import numpy as np

print print

Code='cggagcagctcactattcacccgatgagaggggaggagagagagagaaaatgtcctttaggccggttcctcttacttggcagagggaggc tgctattctccgcctgcatttctttttctggattacttagttatggcctttgcaaaggcaggggtatttgttttgatgcaaacctcaatccctccc cttctttgaatggtgtgccccaccccccgggtcgcctgcaacctaggcggacgctaccatggcgtagacagggagggaaagaagtgtgcagaaggc aagcccggaggcactttcaagaatgagcatatctcatcttcccggagaaaaaaaaaaaagaatggtacgtctgagaatgaaattttgaaagagtgc aatgatgggtcgtttgataatttgtcgggaaaaacaatctacctgttatctagctttgggctaggccattccagttccagacgcaggctgaacgtc gtgaagcggaaggggcgggcccgcaggcgtccgtgtggtcctccgtgcagccctcggcccgagccggttcttcctggtaggaggcggaactcgaat tcatttctcccgctgccccatctcttagctcgcggttgtttcattccgcagtttcttcccatgcacctgccgcgtaccggccactttgtgccgtac ttacgtcatctttttcctaaatcgaggtggcatttacacacagcgccagtgcacacagcaagtgcacaggaagatgagttttggcccctaaccgct ccgtgatgcctaccaagtcacagacccttttcatcgtcccagaaacgtttcatcacgtctcttcccagtcgattcccgaccccacctttattttga tctccataaccattttgcctgttggagaacttcatatagaatggaatcaggatgggcgctgtggctcacgcctgcactttggctcacgcctgcact ttgggaggccgaggcgggcggattacttgaggataggagttccagaccagcgtggccaacgtggtg' RCCode=Code TempCode=Code

print 'Code=',Code print print


pro1=range(1,339) pro2=range(1,339) pro3=range(1,339) prom1=range(1,339) prom2=range(1,339) prom3=range(1,339)

  1. ----------------------Problem one --------------------------------------------


GCcontent=0 for i in range(0,len(Code)-1):

if Code[i]=='c': GCcontent=GCcontent+1 elif Code[i]=='g': GCcontent=GCcontent+1



print 'GC Content=',GCcontent print print print print

  1. ----------------------Problem two---------------------------------------------

for i in range(0,len(Code)-1):

if Code[len(Code)-1-i]=='c': RCCode=RCCode[:i]+'g'+RCCode[i+1:] if Code[len(Code)-1-i]=='g': RCCode=RCCode[:i]+'c'+RCCode[i+1:] if Code[len(Code)-1-i]=='t': RCCode=RCCode[:i]+'a'+RCCode[i+1:] if Code[len(Code)-1-i]=='a': RCCode=RCCode[:i]+'t'+RCCode[i+1:]

print 'Recerse Complement=:', RCCode print print

  1. ----------------------Problem Three---------------------------------------------

Here we put the table That I didn't put because it doesn't look good!!!

for i in range(0,338):

Temp1=Code[3*i]+Code[3*i+1]+Code[3*i+2] Temp2=Code[3*i+1]+Code[3*i+2]+Code[3*i+3] Temp3=Code[3*i+2]+Code[3*i+3]+Code[3*i+4]

pro1[i]=standard[Temp1] pro2[i]=standard[Temp2] pro3[i]=standard[Temp3]

Temp1=RCCode[3*i]+RCCode[3*i+1]+RCCode[3*i+2] Temp2=RCCode[3*i+1]+RCCode[3*i+2]+RCCode[3*i+3] Temp3=RCCode[3*i+2]+RCCode[3*i+3]+RCCode[3*i+4]

prom1[i]=standard[Temp1] prom2[i]=standard[Temp2] prom3[i]=standard[Temp3]


print 'Sequence of (+1) frame' print pro1

print 'Sequence of (+2) frame' print pro2

print 'Sequence of (+3) frame' print pro3

print 'Sequence of (-1) frame' print prom1

print 'Sequence of (-2) frame' print prom2

print 'Sequence of (-3) frame' print prom3


  1. -----------------------------Problem Four---------------------------

counter=0 for j in range(0,1000):

       Code=TempCode
       for i in range(0,10):
               Te=random.random()
               Te=np.fix(100*Te)
               Te2=random.random()
               Te2=int(np.fix(10*Te2))%3
               
               


               if   (Code[100*i+int(Te)]=='c') and (Te2==1):
                     Code=Code[:100*i+int(Te)]+'g'+Code[100*i+int(Te)+1:]
                     
               
               
               elif   (Code[100*i+int(Te)]=='c') and (Te2==2):
                     Code=Code[:100*i+int(Te)]+'t'+Code[100*i+int(Te)+1:]


               elif   (Code[100*i+int(Te)]=='c') and (Te2==0):
                     Code=Code[:100*i+int(Te)]+'a'+Code[100*i+int(Te)+1:]



               elif   (Code[100*i+int(Te)]=='t') and (Te2==1):
                     Code=Code[:100*i+int(Te)]+'g'+Code[100*i+int(Te)+1:]
               
               
               elif   (Code[100*i+int(Te)]=='t') and (Te2==2):
                     Code=Code[:100*i+int(Te)]+'c'+Code[100*i+int(Te)+1:]


               elif   (Code[100*i+int(Te)]=='t') and (Te2==0):
                     Code=Code[:100*i+int(Te)]+'a'+Code[100*i+int(Te)+1:]



               elif   (Code[100*i+int(Te)]=='g') and (Te2==1):
                     Code=Code[:100*i+int(Te)]+'c'+Code[100*i+int(Te)+1:]
               
               
               elif   (Code[100*i+int(Te)]=='g') and (Te2==2):
                     Code=Code[:100*i+int(Te)]+'t'+Code[100*i+int(Te)+1:]


               elif   (Code[100*i+int(Te)]=='g') and (Te2==0):
                     Code=Code[:100*i+int(Te)]+'a'+Code[100*i+int(Te)+1:]



               elif   (Code[100*i+int(Te)]=='a') and (Te2==1):
                     Code=Code[:100*i+int(Te)]+'g'+Code[100*i+int(Te)+1:]
               
               
               elif   (Code[100*i+int(Te)]=='a') and (Te2==2):
                     Code=Code[:100*i+int(Te)]+'t'+Code[100*i+int(Te)+1:]


               elif   (Code[100*i+int(Te)]=='a') and (Te2==0):
                     Code=Code[:100*i+int(Te)]+'c'+Code[100*i+int(Te)+1:]



       pro21=range(1,339)
       pro22=range(1,339)
       pro23=range(1,339)



       for i in range(0,338):
               Temp1=Code[3*i]+Code[3*i+1]+Code[3*i+2]
               Temp2=Code[3*i+1]+Code[3*i+2]+Code[3*i+3]   
               Temp3=Code[3*i+2]+Code[3*i+3]+Code[3*i+4]
               pro21[i]=standard[Temp1]
               pro22[i]=standard[Temp2]
               pro23[i]=standard[Temp3]


       for i in range(0,len(pro21)-1):
               if   pro21[i]=='*' and pro1[i]!='*':
                       counter=counter+1
   

print 'Percent of Premature Termination=',counter,'/1000' print print

print 'Before Mutation:', pro1 print print

print 'After Mutation:', pro21

input()

Project

I may be totally wrong but I want to try and understand the information structure in different evolutionary dynamics.

By Information structure I mean looking at entire path of evolution and trying to understand a unique structure for that.

We already have a big lab of evolutionary dynamics in the nature and human society. For example considering a replication and selection structure for language evolution will give us a good sense of how replication and mutation iteratively make selection to vary. We can call teaching or spreading a word among people replication and selection will happen if a word is useful and easy to use. This path will lead us to build structures which we call it grammar and then grammar will act as a new selection for new objects which we want to generate. Mutation is the change in the words or making new words.


Generalizing evolutionary idea in this way helps us to develop a measurement to understand this big sample we have so far and think about future of that. There will be big parallels among different paths like evolution of language , evolution of science and etc. Also we will see some differences like the rate of evolution which will give us some intrinsic property of this path for different cases.


I will write more...

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