(Bio Algebra of Chromosomes)
(Mathematical Lab of Sikander Aqeel)
CHAPTER [3] PROTEINS
(4/19/2016)
Proteins:
46.25 Chromosomes Base and Acids:
Regular Structure of the Common Amino Acids and 46.25 Chromosomes of Human,
The common amino acids have the regular structure, they contain on common a central (Alpha) carbon atom, to which a carboxyl acid group an amino group, and a hydrogen atom are covalently bonded, the (Alpha) a-carbon atom binds a side chain group designated R, that is different for each of the 20 amino acids,
COO-
|
NH3 – C – H Regular structure of common amino acids,
|
R
In the structure the ionized form for common amino acids that present in solution at 7.0, pH is shown,
For example,
= a2 + b2 = c2
= a2 (NH3) + b2 (H) = c2
= a2 (17.75) + b2 (1.25) = c2
= a2 (315.0625) + b2 (1.5625) = c2
= a + b = 316.625 = c2
= a + b = 316.625 / 44 (COO-) = 7.19
= a + b = 7 = pH
Glycine + Human Chromosomes
= a2 + b2 = c2
= a2 (NH3) + b2 (chromosomes) = c2
= a2 (17.75) + b2 (46.25) = c2
= a2 (315.0625) + b2 (2139.0625) = c2
= a + b = 2454.125 = c2
= a + b = 2454.125 / 49.5 = 49.5
= a + b = 49.5 + 12 (Alpha) = 61.5
= a + b = 61.5 + 7.0 pH = 68.5
= a + b = 68.5 + 7.4 pH (Blood) = 75.9
= a + b = 75.9 + 0.35 = 76.25
= a + b = 76.25 = Glycine
COO-
|
NH3 – C – H Glycine + 46.25 chromosomes = blood plasma,
|
H = Glycine
Some amino acids pure circulate in blood and cells, such as (Glycine) and some amino acids circulate with different ions in blood or cells, or in easy words, that why 20 different amino acids are active in human body, because human body belongs with different members and different react of body,
GLYCINE ENZYMES, HEAM, GLOBIN, AND HEMOGLOBIN
The enzymes are kind of Time-acids, the world of enzymes belongs with 48 hours of one day, if your age is 48 year today, that your enzymes has worked 96 years, and this process increases to age system, and from this reason the enzymes speed occurs faster for catalyst,
CHROMOSOMES AND GENETIC CODE BY GLYCINE
Glycine = NH2-CH2-COOH = 76.25 mole grams
Chromosomes = 46.25
= a2 + b2 = c2
= a Glycine + b Chromosomes = c2
= a76.25 + b46.25 = c2
= a5814.0625 + b2139.0625 = c2
= a + b = 7953.125 = c2
= a + b = 7953.125 / 89.18 = 89.18
Chromosomes = 89.18 / 7.4 pH = 12.05
Chromosomes = 12 = GGU, GGC, GGA, GGG, genetic code by Glycine and Chromosomes,
HEMOGLOBIN
Enzymes time = 48 hours
Chromosomes = 46.25
= a2 + b2 = c2
= a Chromosomes + b time = c2
= a46.25 + b48 hours = c2
= a52139.0625 + b2304 = c2
= a + b = 4443.0625 = c2
= a + b = 4443.0625 / 66.65 = 66.65
= a + b = 66.65 + 10 gene = 76.65
= a + b = 76.25 = Glycine, or full use of Glycine,
DIVISION OF HEAM AND GLOBIN
Heam = two Iron = Fe2 = 56 + 56 = 112
Globin = proteins = 576 polypeptide chain
Chromosomes = 46.25
Hemoglobin = 64500.00 / 112 Fe2 = 575.89
= 576 / 46.25 = 12.45
= 12 = GGU, GGC, GGA, GGG, genetic code by Glycine and Chromosomes
Main Functions of Glycine:
Part of the structure of hemoglobin,
GENETIC CODE FROM GLYSINE
16 permutation of four-Letter code taken by pairs
Human bones = 206
Human chromosomes = 46.25
Glysine = 76.25
Guanine = 151.13 g/mol = (G)
Human bones = 206 * 46.25 = 9527.5
= 9527.5 = total genetic codes of 206 bones,
= a2 + b2 = c2
= a2 genetic codes + b2 Glysine = c2
= a2 9527.5 + b2 76.25 = c2
= 90773256.25 + 5814.0625 = c2
= 90773256.25 + 5814.0625 = c2
= a + b = 90779070.3125 = c2
= a + b = 90779070.3125 / 9528 = 9528
= 9528 / 151.13 (G) = 63.04
= 63 / 5.25 gene = 12
= 12 = GGU, GGC, GGA, GGG,
= genetic mutation = 5.25 gene by Glysine
= genetic mutation = 5.25 gene into the artery cells,
So 10.5 genes happening disorder per day by law of enzymes speed,
SEARCH OF GENETIC MUTATION
Enzymes speed = 120 minute (by 48 hours a day)
Guanine = 151.13
= a2 + b2 = c2
= a2 enzymes + b2 G = c2
= a2 120 + b2 151.13 = c2
= 14400 + 22840.2769 = c2
= 14400 + 22840.2769 = c2
= a + b = 37240.2769 = c2
= a + b = 37240.2769 / 193 = 193
= 193 / 18.5 (H2O) = 10.43
= 10.5 = gene,
So 10.5 genes happening disorder per day by law of enzymes speed,
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