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EA PRINCESS AIDS DESTROYER
BIOLOGY
RED CATS EDITION
Saturday, February 15, 2020
JOSEPH FÉLIX MAXIM THIBODEAU
EA PRINCESS AIDS DESTROYER
Table des matièresINTRODUCTION................................................................................................................................................................. 4THE EVIL FOR THE GOOD................................................................................................................................................ 5LA SÉRIE.............................................................................................................................................................................. 19MON AUTEUR PRÉFÉRÉ ET MOI-MÊME.....................................................................................................................21
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INTRODUCTION
This new weapon, may achieved to reset AIDS to early seropositive state, in the user that will haveto be sequestered for some time, with an overall cost of about less than 100$ for at least 6 monthbetween treatments. Actually the medication is about 12,000 USD per year, and only slowdown theirremediable process. So what could be this miracle, and what are the odds to succeeded it. This will bethe aiming goal of this document...
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THE EVIL FOR THE GOOD
This concept, which I discovered more than 30 years ago, and now improved, is very interesting. Itis enough to use a virus of a frightening effectiveness in order to destroy another virus which would havethe weakness to take its time to do its work. The perfect example that comes to mind is AIDS, whichdoes its work in poorer populations.
The general principle is that once contaminated by the fast virus, the additional internalstructures of the slow virus, that are missing in the invading one, causes the cell to lysis before it canproduce small babies ... which allows the saving of a maximum of cell of the host and the destruction ofthe infection and even almost the complete disappearance of the pathogens. In the case of AIDS, thesmallpox virus could be used because it meets all the criteria for ferocity. Obviously, getting a strain ofsmallpox, that is unable to reproduced itself, is a challenge, but this game is worth the effort. List ofviruses that I would like to destroy permanently from the surface of the planet:
1. HIV2. warts of all types3. flu of all types4. rubella5. measles6. mumps7. Herpes of all types8. …
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The problem with this solution is obviously to reproduce the modified smallpox viruses on a large scale.The current solution advocates individual selection of said viruses, which is extremely prohibitive, evenfor a single treatment. I won't go into details, but workarounds might be possible with a little researchand brainpower. In the case of the use of smallpox, extreme caution is advised ...
The following disastrous result could occur, if only one virus were healthy. The smallpox virus has beeneradicated since 1977 and has a whole history. Used as a weapon of war and decimation, it was verytactically effective. It still exists in some ultra-efficient laboratory, because it must not reappear onEarth in any way. That has been said, fortunately there are some well-preserved strains, because itsspeed of action and its genetic simplicity is unequaled.
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RECENT PART: USING BACTERIOPHAGES LYSIS CYTOTOXIN
To retrieved a part of the bacteria, that is used by AIDS, by using phages could be a long process, byusing synthetic parts of the virus genome, looks better. After the mutation, analyzing the codingsequence don't, because with the different operation provided by mother nature, the exact codingsequence is not achieved, but only in length, actually, based on reading of insulin matching with HumanDNA, it do ! We can't just follow the genetic recipe, it could be some splicing or maturation outside theRNA process cycle.
In counter part, we could proceed systematically to achieved almost every single molecules that couldrise from a virus strain. That by magnetic and calorific centrifugation. This huge amount of possibilitycould be restrained and divided within mature laboratory, maybe with some duplication, only to makesure...
The worst case scenario is to merge in solution AIDS and the ultra famous duo, to makes themreproduced, up to our needs.
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The fact that a virus will, if it's correctly replicated, lysis the infected cell is great, because we couldlooks at this phenomena physically with some optic devices. We need to get a invaded cell that won'texplode, and that fact could be fast by the use of a specific virus strain that will act like that (Small Poxincluded). After, we need to get the virus back from this non exploded cell :()
Maybe using chemical that will induced lysis, we will be able to scan for the virus sub-entities withmicroscope. That single virus cell, unfortunately can't replicated. That precious cell, we don't know yet ifit's the good one, will have to go trough the next step. The problematic is that the next step could killthe prospect, that is costly to achieved.
After some research on the Web, it seem that the gag from HIV is located in the phage thatproduced a cytotoxin, that could achieved what we need... I'm to 15% chance of success :)
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p42 gene for PhiCTX phage:
GTGGATGTGATCGACCAAGCCAACGAACGGGCCGAGAACATGGTCCAGGCCGCCCTGGCCCAGCGGACAAACACCCGCCTGGCGCCCAGCGCCCTCTGGTGCGAGGACTGCGGAGAGCAGATACCCGAGGCCCGCCGCCAGGCTGCTCCGGGCTGCGAGTGCTGCATCAGTTGTCAGGAACTGCGCGAGCACCCCGCGCGGCGCTGA
Insulin gene:
AGCCCTCCAGGACAGGCTGCATCAGAAGAGGCCATCAAGCAGATCACTGTCCTTCTGCCATGGCCCTGTGGATGCGCCTCCTGCCCCTGCTGGCGCTGCTGGCCCTCTGGGGACCTGACCCAGCCGCAGCCTTTGTGAACCAACACCTGTGCGGCTCACACCTGGTGGAAGCTCTCTACCTAGTGTGCGGGGAACGAGGCTTCTTCTACACACCCAAGACCCGCCGGGAGGCAGAGGACCTGCAGGTGGGGCAGGTGGAGCTGGGCGGGGGCCCTGGTGCAGGCAGCCTGCAGCCCTTGGCCCTGGAGGGGTCCCTGCAGAAGCGTGGCATTGTGGAACAATGCTGTACCAGCATCTGCTCCCTCTACCAGCTGGAGAACTACTGCAACTAGACGCAGCCCGCAGGCAGCCCCACACCCGCCGCCTCCTGCACCGAGAGAGATGGAATAAAGCCCTTGAACCAGC
HIV sequence:
GGTCTCTCTGGTTAGACCAGATCTGAGCCTGGGAGCTCTCTGGCTAACTAGGGAACCCACTGCTTAAGCCTCAATAAAGCTTGCCTTGAGTGCTTCAAGTAGTGTGTGCCCGTCTGTTGTGTGACTCTGGTAACTAGAGATCCCTCAGACCCTTTTAGTCAGTGTGGAAAATCTCTAGCAGTGGCGCCCGAACAGGGACCTGAAAGCGAAAGGGAAACCAGAGGAGCTCTCTCGACGCAGGACTCGGCTTGCTGAAGCGCGCACGGCAAGAGGCGAGGGGCGGCGACTGGTGAGTACGCCAAAAATTTTGACTAGCGGAGGCTAGAAGGAGAGAGATGGGTGCGAGAGCGTCAGTATTAAGCGGGGGAGAATTAGATCGATGGGAAAAAATTCGGTTAAGGCCAGGGGGAAAGAAAAAATATAAATTAAAACATATAGTATGGGCAAGCAGGGAGCTAGAACGATTCGCAGTTAATCCTGGCCTGTTAGAAACATCAGAAGGCTGTAGACAAATACTGGGACAGCTACAACCATCCCTTCAGACAGGATCAGAAGAACTTAGATCATTATATAATACAGTAGCAACCCTCTATTGTGTGCATCAAAGGATAGAGATAAAAGACACCAAGGAAGCTTTAGACAAGATAGAGGAAGAGCAAAACAAAAGTAAGAAAAAAGCACAGCAAGCAGCAGCTGACACAGGACACAGCAATCAGGTCAGCCAAAATTACCCTATAGTGCAGAACATCCAGGGGCAAATGGTACATCAGGCCATATCACCTAGAACTTTAAATGCATGGGTAAAAGTAGTAGAAGAGAAGGCTTTCAGCCCAGAAGTGATACCCATGTTTTCAGCATTATCAGAAGGAGCCACCCCACAAGATTTAAACACCATGCTAAACACAGTGGGGGGACATCAAGCAGCCATGCAAATGTTAAAAGAGACCATCAATGAGGAAGCTGCAGAATGGGATAGAGTGCATCCAGTGCATGCAGGGCCTATTGCACCAGGCCAGATGAGAGACCAAGGGGAAGTGACATAGCAGGAACTACTAGTACCCTTCAGGAACAAATAGGATGGATGACAAATAATCCACCTATCCCAGTAGGAGAAATTTATAAAAGATGGATAATCCTGGGATTAAATAAAATAGTAAGAATGTATAGCCCTACCAGCATTCTGGACATAAGACAAGGACCAAAGGAACCCTTTAGAGACTATGTAGACCGGTTCTATAAAACTCTAAGAGCCGAGCAAGCTTCACAGGAGGTAAAAAATTGGATGACAGAAACCTTGTTGGTCCAAAATGCGAACCCAGATTGTAAGACTATTTTAAAAGCATTGGGACCAGCGGCTACACTAGAAGAAATGATGACAGCATGTCAGGGAGTAGGAGGACCCGGCCATAAGGCAAGAGTTTTGGCTGAAGCAATGAGCCAAGTAACAAATTCAGCTACCATAATGATGCAGAGAGGCAATTTTAGGAACCAAAGAAAGATTGTTAAGTGTTTCAATTGTGGCAAAGAAGGGCACACAGCCAGAAATTGCAGGGCCCCTAGGAAAAAGGGCTGTTGGAAATGTGGAAAGGAAGGACACCAAATGAAAGATTGTACTGAGAGACAGGCTAATTTTTTAGGGAAGATCTGGCCTTCCTACAAGGGAAGGCCAGGGAATTTTCTTCAGAGCAGACCAGAGCCAACAGCCCCACCAGAAGAGAGCTTCAGGTCTGGGGTAGAGACAACAACTCCCCCTCAGAAGCAGGAGCCGATAGACAAGGAACTGTATCCTTTAACTTCCCTCAGGTCACTCTTTGGCAACGACCCCTCGTCACAATAAAGATAGGGGGGCAACTAAAGGAAGCTCTATTAGATACAGGAGCAGATGATACAGTATTAGAAGAAATGAGTTTGCCAGGAAGATGGAAACCAAAAATGATAGGGGGAATTGGAGGTTTTATCAAAGTAAGACAGTATGATCAGATACTCATAGAAATCTGTGGACATAAAGCTATAGGTACAGTATTAGTAGGACCTACACCTGTCAACATATTGGAAGAAATCTGTTGACTCAGATTGGTTGCACTTTAAATTTTCCCATTAGCCCTATTGAGACTGTACCAGTAAAATTAAAGCCAGGAATGGATGGCCCAAAAGTTAAACAATGGCCATTGACAGAAGAAAAAATAAAAGCATTAGTAGAAATTTGTACAGAGATGGAAAAGGAAGGGAAAATTTCAAAAATTGGGCCTGAAAATCCATACAATACTCCAGTATTTGCCATAAAGAAAAAAGACAGTACTAAATGGAGAAAATTAGTAGATTTCAGAGAACTTAATAAGAGAACTCAAGACTTCTGGGAAGTTCAATTAGGAATACCACATCCCGCAGGGTTAAAAAAGAAAAAATCAGTAACAGTACTGGATGTGGGTGATGCATATTTTTCAGTTCCCTTAGATGAAGACTTCAGGAAGTATACTGCATTTACCATACCTAGTATAAACAATGAGACACCAGGGATTAGATATCAGTACAATGTGCTTCCACAGGGATGGAAAGGATCACCAGCAATATTCCAAAGTAGCATGACAAAAATCTTAGAGCCTTTTAGAAAACAAAATCCAGACATAGTTATCTATCAATACATGGATGATTTGTATGTAGGATCTGACTTAGAAATAGGGCAGCATAGAACAAAAATAGAGGAGCTGAGACAACATCTGTTGAGGTGGGGACTTACCACACCAGACAAAAAACATCAGAAAGAACCTCCATTCCTTTGGATGGGTTATGAACTCCATCCTGATAAATGGACAGTACAGCCTATAGTGCTGCCAGAAAAAGACAGCTGGACTGTCAATGACATACAGAAGTTAGTGGGGAAATTGAATTGGGCAAGTCAGATTTACCCAGGGATTAAAGTAAGGCAATTATGTAAACTCCTTAGAGGAACCAAAGCACTAACAGAAGTAATACCACTAACAGAAGAAGCAGAGCTAGAACTGGCAGAAAACAGAGAGATTCTAAAAGAACCAGTACATGGAGTGTATTATGACCCATCAAAAGACTTAATAGAGAAATACAGAAGCAGGGGCAAGGCCAATGGACATATCAAATTTATCAAGAGCCATTTAAAAATCTGAAAACAGGAAAATATGCAAGAATGAGGGGTGCCCACACTAATGATGTAAAACAATTAACAGAGGCAGTGCAAAAAATAACCACAGAAAGCATAGTAATATGGGGAAAGACTCCTAAATTTAAACTGCCCATACAAAAGGAAACATGGGAAACATGGTGGACAGAGTATTGGCAAGCCACCTGGATTCCTGAGTGGGAGTTTGTTAATACCCCTCCCTTAGTGAAATTATGGTACCAGTTAGAGAAAGAACCCATAGTAGGAGCAGAAACCTTCTATGTAGATGGGGCAGCTAACAGGGAGACTAAATTAGGAAAAGCAGGATATGTTACTAATAGAGGAAGACAAAAAGTTGTCACCCTAACTGACACAACAAATCAGAAGACTGAGTTACAAGCAATTTATCTAGCTTTGCAGGATTCGGGATTAGAAGTAAACATAGTAACAGACTCACAATATGCATTAGGAATCATTCAAGCACAACCAGATCAAAGTGAATCAGAGTTAGTCAATCAAATAATAGAGCAGTTAATAAAAAAGGAAAAGGTCTATCTGGCATGGGTACCAGCACACAAAGGAATTGGAGGAAATGAACAAGTAGATAAATTAGTCAGTGCTGGAATCAGGAAAGTACTATTTTTAGATGGAATAGATAAGGCCCAAGATGAACATGAGAAATATCACAGTAATTGGAGAGCAATGGCTAGTGATTTTAACCTGCCACCTGTAGTAGCAAAAGAAATAGTAGCCAGCTGTGATAAATGTCAGCTAAAAGGAGAAGCCATGCATGGACAAGTAGACTGTAGTCCAGGAATATGGCAACTAGATTGTACACATTTAGAAGGAAAAGTTATCCTGGTAGCAGTTCATGTAGCCAGTGGATATATAGAAGCAGAAGTTATTCCAGCAGAAACAGGGCAGGAAACAGCATATTTTCTTTTAAAATTAGCAGGAAGATGGCAGTAAAAACAATACATACTGACAATGGCAGCAATTTCACCGGTGCTACGGTTAGGGCCGCCTGTTGGTGGGCGGGAATCAAGCAGGAATTTGGAATTCCCTACAATCCCCAAAGTCAAGGAGTAGTAGAATCTATGAATAAAGAATTAAAGAAAATTATAGGACAGGTAAGAGATCAGGCTGAACATCTTAAGACAGCAGTACAAATGGCAGTATTCATCCACAATTTTAAAAGAAAAGGGGGGATTGGGGGGTACAGTGCAGGGGAAAGAATAGTAGACATAATAGCAACAGACATACAAACTAAAGAATTACAAAAACAAATTACAAAAATTCAAAATTTTCGGGTTTATTACAGGGACAGCAGAAATCCACTTTGGAAAGGACCAGCAAAGCTCCTCTGGAAAGGTGAAGGGGCAGTAGTAATACAAGATAATAGTGACATAAAAGTAGTGCCAAGAAGAAAAGCAAAGATCATTAGGGATTATGGAAAACAGATGGCAGGTGATGATTGTGTGGCAAGTAGACAGGATGAGGATTAGAACATGGAAAAGTTTAGTAAAACACCATATGTATGTTTCAGGGAAAGCTAGGGGATGGTTTTATAGACATCACTATGAAAGCCCTCATCCAAGAATAAGTTCAGAAGTACACATCCCACTAGGGGATGCTAGATTGGTAATAACAACATATTGGGGTCTGCATACAGGAGAAAGAGACTGGCATTTGGGTCAGGGAGTCTCCATAGAATGGAGGAAAAAGAGATATAGCACACAAGTAGACCCTGAACTAGCAGACCAACTAATTCATCTGTATTACTTTGACTGTTTTTCAGACTCTGCTATAAGAAAGGCCTTATTAGGACACATAGTTAGCCCTAGGTGTGAATATCAAGCAGGACATAACAAGGTAGGATCTCTACAATACTTGGCACTAGCAGCATTAATAACACCAAAAAAGATAAAGCCACCTTTGCCTAGTGTTACGAAACTGACAGAGGATAGATGGAACAAGCCCCAGAAGACAAGGGCCACAGAGGGAGCCACACAATGAATGGACACTAGAGCTTTTAGAGGAGCTTAAGAATGAAGCTGTTAGACATTTTCCTAGGATTTGGCTCCATGGCTTAGGGCAACATATCTATGAAACTTATGGGGATACTTGGGCAGGAGTGGAAGCCATAATAAGAATTCTGCAACAACTGCTGTTTATCCATTTTCAGAATTGGGTGTCGACATAGCAGAATAGGCGTTACTCGACAGAGGAGAGCAAGAAATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCAGCCTAAAACTGCTTGTACCAATTGCTATTGTAAAAAGTGTTGCTTTCATTGCCAAGTTTGTTTCATAACAAAAGCCTTAGGCATCTCCTATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCATCAGAACAGTCAGACTCATCAAGCTTCTCTATCAAAGCAGTAAGTAGTACATGTAATGCAACCTATACCAATAGTAGCAATAGTAGCATTAGTAGTAGCAATAATAATAGCAATAGTTGTGTGGTCCATAGTAATCATAGAATATAGGAAAATATTAAGACAAAGAAAAATAGACAGGTTAATTGATAGACTAATAGAAAGAGCAGAAGACAGTGGCAATGAGAGTGAAGGAGAAATATCAGCACTTGTGGAGATGGGGGTGGAGATGGGGCACCATGCTCCTTGGGATGTTGATGATCTGTAGTGCTACAGAAAAATTGTGGGTCACAGTCTATTATGGGGTACCTGTGTGGAAGGAAGCAACCACCACTCTATTTTGTGCATCAGATGCTAAAGCATATGATACAGAGGTACATAATGTTTGGGCCACACATGCCTGTGTACCCACAGACCCCAACCCACAAGAAGTAGTATTGGTAAATGTGACAGAAAATTTTAACATGTGGAAAAATGACATGGTAGAACAGATGCATGAGGATATAATCAGTTTATGGGATCAAAGCCTAAAGCCATGTGTAAAATTAACCCCACTCTGTGTAGTTTAAAGTGCACTGATTTGAAGAATGATACTAATACCAATAGTAGTAGCGGGAGAATGATAATGGAGAAAGGAGAGATAAAAAACTGCTCTTTCAATATCAGCACAAGCATAAGAGGTAAGGTGCAGAAAGAATATGCATTTTTTTATAAACTTGATATAATACCAATAGATAATGATACTACCAGCTATAAGTTGACAAGTTGTAACACCTCAGTCATTACACAGGCCTGTCCAAAGGTATCCTTTGAGCCAATTCCCATACATTATTGTGCCCCGGCTGGTTTTGCGATTCTAAAATGTAATAATAAGACGTTCAATGGAACAGGACCATGTACAAATGTCAGCACAGTACAATGTACACATGGAATTAGGCCAGTAGTATCAACTCAACTGCTGTTAAATGGCAGTCTAGCAGAAGAAGAGGTAGTAATTAGATCTGTCAATTTCACGGACAATGCTAAAACCATAATAGTACAGCTGAACACATCTGTAGAAATTAATTGTACAAGACCCAACAACAATACAAGAAAAAGAATCCGTATCCAGAGAGGACCAGGGAGAGCATTTGTTACAATAGGAAAAATAGGAAATATGAGACAAGCACATTGTAACATTAGTAGAGCAAAATGGAATAACACTTTAAAACAGATAGCTAGCAAATTAAGAGAACAATTTGGAAATAATAAAACAATAATCTTTAAGCAATCCTCAGGAGGGGACCCAGAAATTGTAACGCACAGTTTTAATTGTGGAGGGGAATTTTTCTACTGTAATTCAACACAACTGTTTAATAGTACTTGGTTTAATAGTACTTGGAGTACTGAAGGGTCAAATAACACTGAAGGAAGTGACACAATCACCCTCCCATGCAGAATAAAACAAATTATAAACATGTGGCAGAAAGTAGGAAAAGCAATGTATGCCCCTCCCATCAGTGGACAAATTAGATGTTCATCAAATATTACAGGGCTGCTATTAACAAGAGATGGTGGTAATAGCAACAATGAGTCCGAGATCTTCGACCTGGAGGAGGAGATATGAGGGACAATTGGAGAAGTGAATTATATAAATATAAAGTAGTAAAAATTGAACCATTAGGAGTAGCACCCACCAAGGCAAAGAGAAGAGTGGTGCAGAGAGAAAAAAGAGCAGTGGGAATAGGAGCTTTGTTCCTTGGGTTCTTGGGAGCAGCAGGAAGCACTATGGGCGCAGCCTCAATGACGCTGACGGTACAGGCCAGACAATTATTGTCTGGTATAGTGCAGCAGCAGAACAATTTGCTGAGGGCTATTGAGGCGCAACAGCATCTGTTGCAACTCACAGTCTGGGGCATCAAGCAGCTCCAGGCAAGAATCCTGGCTGTGGAAAGATACCTAAAGGATCAACAGCTCCTGGGGATTTGGGGTTGCTCTGGAAAACTCATTTGCACCACTGCTGTGCCTTGGAATGCTAGTTGGAGTAATAAATCTCTGGAACAGATTTGGAATCACACGACCTGGATGGAGTGGGACAGAGAAATTAACAATTACACAAGCTTAATACACTCCTTAATTGAAGAATCGCAAAACCAGCAAGAAAAGAATGAACAAGAATTATTGGAATTAGATAAATGGGCAAGTTTGTGGAATTGGTTTAACATAACAAATTGGCTGTGGTATATAAAATTATTCATAATGATAGTAGGAGGCTTGGTAGGTTTAAGAATAGTTTTTGCTGTACTTTCTATAGTGAATAGAGTTAGGCAGGGATATTCACCATTATCGTTTCAGACCCACCTCCCAACCCCGAGGGGACCCGACAGGCCCGAAGGAATAGAAGAAGAAGGTGGAGAGAGAGACAGAGACAGATCCATTCGATTAGTGAACGGATCCTTGGCACTTATCTGGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAGGGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCCTACAGTATTGGAGTCAGGAACTAAAGAATAGGCTGTTAGCTTGCTCAATGCCACAGCCATAGCAGTAGCTGAGGGGACAGATAGGGTTATAGAAGTAGTACAAGGAGCTTGTAGAGCTATTCGCCACATACCTAGAAGAATAAGACAGGGCTTGGAAAGGATTTTGCTATAAGATGGGTGGCAAGTGGTCAAAAAGTAGTGTGATTGGATGGCCTACTGTAAGGGAAAGAATGAGACGAGCTGAGCCAGCAGCAGATAGGGTGGGAGCAGCATCTCGAGACCTGGAAAAACATGGAGCAATCACAAGTAGCAATACAGCAGCTACCAATGCTGCTTGTGCCTGGCTAGAAGCACAAGAGGAGGAGGAGGTGGGTTTTCCAGTCACACCTCAGGTACCTTTAAGACCAATGACTTACAAGGCAGCTGTAGATCTTAGCCACTTTTTAAAAGAAAAGGGGGGACTGGAAGGGCTAATTCACTCCCAAAGAAGACAAGATATCCTTGATCTGTGGATCTACCACACACAAGGCTACTTCCCTGATTAGCAGAACTACACACCAGGGCCAGGGGTCAGATATCCACTGACCTTTGGATGGTGCTACAAGCTAGTACCAGTTGAGCCAGATAAGATAGAAGAGGCCAATAAAGGAGAGAACACCAGCTTGTTACACCCTGTGAGCCTGCATGGGATGGATGACCCGGAGAGAGAAGTGTTAGAGTGGAGGTTTGACAGCCGCCTAGCATTTCATCACGTGGCCCGAGAGCTGCATCCGGAGTACTTCAAGAACTGCTGACATCGAGCTTGCTACAAGGGACTTTCCGCTGGGGACTTTCCAGGGAGGCGTGGCCTGGGCGGGACTGGGGAGTGGCGAGCCCTCAGATCCTGCATATAAGCAGCTGCTTTTTGCCTGTACTGGGTCTCTCTGGTTAGACCAGATCTGAGCCTGGGAGCTCTCTGGCTAACTAGGGAACCCACTGCTTAAGCCTCAATAAAGCTTGCCTTGAGTGCTTC
I'm working on that, actually...
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EA PRINCESS AIDS DESTROYERusing System;using System.Collections.Generic;using System.Windows.Forms;
namespace Super_Duper_HIV_Pirahna{ public partial class Form1 : Form { public Form1() { InitializeComponent(); }
private void button1_Click(object sender, EventArgs e) { string HIV = System.IO.File.ReadAllText(@"C:\Users\Maxim\Desktop\Projets_2018_Nov\Projets_2018\Biologie\hiv\HIV2.txt"); string P42 = System.IO.File.ReadAllText(@"C:\Users\Maxim\Desktop\Projets_2018_Nov\Projets_2018\Biologie\hiv\p42.txt");
int div = P42.Length;
int coincidence = 0; int codon = 0; int maxFit = 0; int maxLength = 0; int position = 0; List<int> jump = new List<int>(); int totalJump = 0; bool lastone = true;
for (int i = 0; i < HIV.Length - P42.Length; i++) { //for (int k = 0; k < HIV.Length - i; k++) { int tmp = 0; jump.Clear();
for (int j = 0; j < P42.Length + tmp; j++) { tmp = 0; foreach (int inte in jump) tmp += inte;
if (i + j + tmp >= HIV.Length) break;
if (HIV[i + j + tmp] == P42[j - tmp]) { coincidence++; lastone = true; } else { if (lastone == true) { totalJump++; lastone = false; } if (totalJump > jump.Count) { jump.Add(1); } else { jump[totalJump-1]++; if (jump[totalJump-1] > 20) { //MessageBox.Show(jump.Count.ToString()); break; } } } }
if (coincidence > maxFit) { maxFit = coincidence; position = i; maxLength = tmp + P42.Length; } coincidence = 0; }
public void Algo1(string f22, int start, int end) {
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string HIV = System.IO.File.ReadAllText(@"C:\Users\Maxim\Desktop\Projets_2018_Nov\Projets_2018\Biologie\hiv\Data_Humain\Final_Cromosome_10.txt"); string P42 = System.IO.File.ReadAllText(@"C:\Users\Maxim\Desktop\Projets_2018_Nov\Projets_2018\Biologie\hiv\insulin.txt");
int div = P42.Length;
int coincidence = 0; int codon = 0; int maxFit = 0; int maxLength = int.MaxValue; int position = 0; int[] jump = new int[1024]; int totalJump = 0; bool lastone = true;
int hhhhh = 0;
if(end == -1) { end = HIV.Length - P42.Length; }
for (int i = start; i < end; i++) { bool is_protein = false;
if ((HIV[i] == 'A' || HIV[i] == 'a') && (HIV[i + 1] == 'T' || HIV[i + 1] == 't') && (HIV[i + 2] == 'G' || HIV[i + 2] == 'g')) is_protein = true;
//for (int k = 0; k < HIV.Length - i; k++) if (true) { totalJump = 0; int tmp = 0; for (int o = 0; o < 1024; o++) jump[o] = 0;
for (int j = 0; j < P42.Length + tmp; j++) { tmp = 0; foreach (int inte in jump) tmp += inte;
if (i + j + tmp >= HIV.Length) break;
if (HIV[i + j + tmp] == P42[j - tmp]) { coincidence++; lastone = true; //totalJump = 0; } else { if (lastone == true) { totalJump++; if (totalJump == 1024) break; lastone = false; }
jump[totalJump]++;
/*if (jump[totalJump] > 10) { //MessageBox.Show(jump.Count.ToString()); break; }*/
if (jump[totalJump] > 1024) { //MessageBox.Show("break"); break; } } }
string hhjj = ""; for (int f = 0; f < 1024; f++) { if (jump[f] < 1 && jump[f] != 0) coincidence--; hhjj += ":" + jump[f].ToString(); }
if (hhhhh < coincidence)
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{ hhhhh = coincidence; maxFit = coincidence; position = i; maxLength = tmp;// + P42.Length; textBox2.Text = hhjj; } coincidence = 0; //maxLength = int.MaxValue; }
textBox1.Text = (int.Parse(textBox1.Text) + 1).ToString(); this.Update(); }
MessageBox.Show(((float)(((maxFit) - P42.Length / 4.0f) / (1.0f * P42.Length) * 100.0f + 25.0f)).ToString("0.0000") + " AT: " + position + " #: " + (maxLength) + " : ratio : " + (P42.Length /(float)maxLength).ToString("0.000"));
string ttt = ""; string prot = "";
for (int i = 0; i < maxLength; i++) {
ttt += HIV[position + i]; if (i >= 3) { if (HIV[position + i] == 'G' && HIV[position + i - 1] == 'T' && HIV[position + i - 2] == 'A') { ttt += "###"; } } }
for (int i = 0; i < P42.Length; i++) { prot += P42[i]; }
textBox2.Text = textBox2.Text + ttt; textBox4.Text = prot; }
private void button4_Click(object sender, EventArgs e) { Algo1("HIV", 2159000, 2162000); //Algo1("Final_Cromosome_10", 2159000, 2162000); } textBox1.Text = (int.Parse(textBox1.Text) + 1).ToString(); this.Update();
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Believe it or not, I achieved 100% on 684 bases and 0.303 ratio :) :() :)That is great, because Insulin is worst, 100% on 2245 bases 0.207 ratio, and is clearly include in the
Human DNA :)
PHAGE CHATS-LAPINS
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LA SÉRIE
• EXCEPTIONAL ENGINEERING PROJECTS
• THE NON-EINSTENIUM PHYSICS
• GENERAL BIOLOGY
• MARS CONQUEST:
◦ THE BOOK
◦ TRAJECTORIES SPECIAL EDITION
◦ MANAGEMENT SPECIAL EDITION
◦ ATOMIC SPECIAL EDITION
◦ MARSONAUTS SELECTION SPECIAL EDITION
◦ INTERSTELLAR MOON BASES
• GALACTIC CONQUEST AND POST MODERN WEAPONS
• THE MOSCOW-VLADIVOSTOK
LE SITE WEB:
SUPER ETERNAL KITTENS SCIENCES 2019
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MON AUTEUR PRÉFÉRÉ ET MOI-MÊME
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