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Statement of the problem: The molecular biologists’ observation in 1953 that the sequence of the RNA four bases; Adenine, Uracil, Guanine, Cytosine (A, U, G, C) in the nucleus of a cell influenced the sequence of the 20 amino acids of protein in the cellular cytoplasm, as a natural example of the input/output multiplicative replication system in computational combinatorics, calls for base 4 neodigibreed construction with an input set of the RNA four bases A, U, G, C, as an indirect source of permutations of 4 from 4 of the four RNA bases.
Method and theoretical orientation: The four RNA bases A, U, G, C in a sequence are used as input set in base 4 neodigibreed construction by successive collateral posting to digitality level 4 terminal, wherein 256 quadruplets reside. Distinction between permutation quadruplets and nonpermutation quadruplets in terms of isodigitation is made amongst the 256 quadruplets to the effect of isolating nonisodigitated permutation quadruplets by the deletion of nonpermutation quadruplets characterized by isodigitation.
Finding: 24 permutation quadruplets free from isodigitation emerged on one side of the separation to yield the 24 quadruplet genetic code as the desired outcome of the exploration, while 232 nonpermutation quadruplets on the side of isodigitation got deleted out of the 256 quadruplets at digitality level 4 in accordance with the demand of the indirect source of derivation of the genetic code from base 4 AUGC neodigibreed at digitality 4.
Conclusion and significance: The 24 permutation, non isodigitated quadruplets surviving the isodigitationbased deletion of the base 4 neodigibreed 256 quadruplets consequently represent the fabric of the true genetic code of 24 permutation quadruplet codons as sourced from the base 4 neodigibreed indirect method of derivation. This 24 quadruplet genetic code enjoys collinearity with a protein type of 20 amino acids, with four spare quadruplets for four time and place based start/stop control signals during protein synthesis.
Recommendation: This combinatorically fit and precise genetic code of 24 quadruplet codons is recommended to experimental experts in molecular biology for spelling in order to render it fit for adoption in coding application in protein synthesis studies.
Keywords: Isodigitation, Nonisodigitation, Permutation, Quadruplets, Separation
INTRODUCTION
Both the digibreed with a zeroincluded input set/basestrength of numerals and the neodigibreed of zeroless input set/base strength of letters are known as the habitat of the entire community of integral numbers/digitisms. Just as water is the habitat of fish, no matter the species; so is the digibreed/neodigibreed the habitat of integral numbers/digitism, no matter the variety [1].
However, the composition of the populace is seen differently by different prospectors of numbers/digitisms [2]: the number theorists see it as a mixture of odd and even numbers, with the odd unfolding prime numbers and the even also unfolding super even numbers. The numerationists see additional indigenes such as dittodigital, nonary and palindromic numbers and other laminated numbers; while the combinatorists see it as a mixture of permutations and nonpermutations only. So when these number prospectors of diverse interests go to exploit the digibreed/neodigibreed,they leave behind different kinds of rejected number categories after making their selective extractions. We are concerned with the outcome of the exploitation of the neodigibreed of zero less input set/basestrength of A, U, G, C for permutations by the combinatorists for the construction of the genetic code for their molecular biology clients. What we shall find as litters in a neodigibreed is of much importance to the quality of the genetic code in terms of fabric and structure [3].
DEFINITIONS, ILLUSTRATIONS AND ANNOTATIONS
Definitions
Carcasses: Worthless remains and discarded.
Combination: A group of things chosen from a larger number of dissimilar things without regard to order in the group.
Digitism: Digital composition of a number or the set of letters in code words.
Isodigitism: Is the condition in a digitism whereby one or more digits/letters are repeated.
Deisodigitation: Is the elimination or removal of digitisms affected by isodigitism.
Digibreed: Is number population in sequence to a specified digitality generated by successive collateral posting of a given base strength in which zero is included.
Digitality: Is number of digits in a number or letters in digitism.
Neodigibreed: Is a digibreed whose basestrength is zeroless and consists of letters or numerals.
Permutations: Is anyone of the possible dissimilar things taken all (fullset selection) or some (subset selection) at a time can be arranged in which order is important.
ILLUSTRATIONS
Super even numbers include 2, 4, 8, 16, 32, 64…They are represented by the domiciliary formula 2^{n}, where n ≥ 1 and integral. The somatic ratio of a sequence of them is 2n. Their progression is easily freed from the enfolding parent even number sequence by the formula where n/21, where n is the super even number in flight, and n/21 is the flight interserial that is the over flight pace to reach the next super even number. The casualties here are the even numbers [3].
Dittodigital numbers
At digitality 4, they run from 0001 through 5050 to 9999. In numeration literature they are called Titus numbers, named after a friend of the author.
Nonary numbers
At digitality 4, they run from 0099 through 1188 to 9900. In numeration literature they are called Gilbert numbers, named after a relation of the author.
Palindromic numbers
Examples include 0990, 1881…7227, 9009. They retain their magnitude in opposite views. Their other two names are laminated numbers and sandwich numbers.
All the above and many more categories of numbers reside in the digibreed as a matter of nativity.
Annotations
Input/output format: In the first place, divine creation is the supreme example of the input/output format. The spoken word of God as input, and the resulting creation, the manifestation of matter, as the output material in the form of quantity (seen or unseen). It is the infrastructure for permutations and combinations. The genetic code is a striking natural example of a quantitative system featuring the input/output format and goes along with permutations in productivity and textural identity characterized by nonisodigitism. Input/output format is patronized by procreation in animal and plant life. Thus yam planted and yam harvested are the same in kind [4].
Other characteristics include sameness of size of input set digitism and output material digitism, e.g. mango fruit harvested. In permutation, nonisodigital input set must yield nonisodigital output material digitisms. Also there is always a multiplication in numerical quantity in output relative to the input set either in terms of size (yam) or number (grains) and in permutations, factorial n! For input set of n units (digits), i.e., nPn=n! accompanied by diversification of the input set sequence.
Textural subpopulations of numbers (digitisms)
The general number population can be subdivided into three subpopulations on textural basis: namely, total isodigitals, partial isodigitals and nonisodigitals.
In total isodigitals, all the digits of digitism are repetitions of one particular digit, e.g. 1111, 2222, 33. In partial isodigitals, some of the digits of digitism are repetitions of one or more digits, e.g. 5050, 122, 211 or the series 1, 10, 100, 1000…
The nonisodigitals have no repetition of any digits in their digitisms, e.g. 12, 314, 4321. A number of these textural subpopulations of numbers serve special interests in Numeration and Combinatorics. For instance, the partial isodigital series 1, 10, 100, 1000…known as Incremental Digitality Counts (IDCs) in Numeration are used in meridian place location and as meridian place values in the organization of the entire number population of whatever basestrength. Similarly, the nonisodigital subpopulation of numbers is what combinatorics uses in fixing or computing the factorial complements for permutations and combinations for all specifications of set (n) and selection (r) and _{4}G_{4}, i.e., fullset selection 4 for genetic code construction. So the texture of the fabric of the true genetic code as an example of permutation can only be made up of nonisodigital formations of A, U, G, C per formation and not otherwise as in the 64 triplet degenerate code which includes 40 isodigital triplets (4 total and 36 partial) [5].
MATERIALS AND METHODS
Materials
The materials consist of the four RNA nucleotide bases A, U, G, C. The method employs base crossing involving successive collateral posting of the four bases in elongated Punnett Square to digitality level 4 in parity with the input set 4 in digitality for maturity of output material as shown in Chart 1 at digitality 4 between lines 2285, which represents a neodigibreed of zeroless base 4 strength.
The genetic code exploration proper is only centred in digitality 4 region wherein the nonpermutations are all crossed out to leave a residue of 24 quadruplet permutation codons for the structure of the true natural genetic code designed for protein synthesis. Nevertheless, nonpermutations in the premature digitalities 2 and 3 regions are also crossed out, thereby bringing carcasses that litter the length and breadth of the entire neodigibreed that is the treasuretrove of the true genetic code.
Method
The method comprises implanting a sequence of the four nucleotide bases AUGC as input set in a Punnett Square Chart 1 and carrying out successive collateral posting until digitality 4 is accomplished. Digitisms with repeated letters (bases) are identified as nonpermutations in digitality 4 as well as the premature digitalities of 2 and 3 and are crossed out as seen in Chart 1. This leaves a residue of permutations: 24 quadruplets in digitality 4 and also 24 triplets in digitality 3 and 12 doublets in digitality 2.
The latter two categories being premature are discarded, so that only the 24 permutation quadruplets of digitality 4 are gathered as the treasure of the genetic code exploration in the neodigibreed as depicted in Chart 1. Base 4 A, U, G, C neodigibreed under exploitation for Genetic Code resource.
The 24 permutation quadruplets surviving deisodigitation of digitality level 4 in Chart 1 represent the 24 quadruplet genetic code as presented in Table 1.
The outcome of deisodigitation process carried out on digitality level 4 of Chart 2 in search of the genetic code is shown in Table 2.
The value of c for the population of nonpermutation formations at each digitality level (d) can be deduced thus: By transposition of eqn (i) we have c = b^{d}– p.  (ii)
So that with eqn (ii)
At line 1, c = 4^{1}–_{4}P_{1} = 4 – 4 = 0
At line 2, c = 4^{2} – _{4}P_{2}= 16 – 4x3=1612 = 4 duplexes (carcasses)
At line 3, c = 4^{3} – _{4}P_{3} = 64 –4x3x2 =6424 = 40 triplets(carcasses)
At line 4, c = 4^{4} – _{4}P_{4} = 256 – 4x3x2x1 = 25624 = 232 quadruplets (carcasses)
RESULTS
The results fall into four categories:
(a) 24 permutation quadruplets (i) from Table 2 comprising the genetic code and (ii) from Table 1 comprising the genetic code in a unique sequence being the treasure exploited from the base 4 AUGC neodigibreed exploration for the genetic code at digitality level 4.
(b) Casualties of deisodigitation process affecting numbers of nonpermutations.
(i) 232 quadruplets at digitality 4 (carcasses)
(ii) 40 triplets at digitality 3 (carcasses)
(iii) 4 duplexes at digitality 2 (carcasses)
(c) Numbers of surviving waste products being immature and undersized permutations (i) 24 triplets at digitality 3,
And (ii) 12 duplexes at digitality 2.
(d) Formulary c = b^{d}– nPr for a bonus to academics where c=nonpermutations, the carcasses population in neodigibreed
nPr=Permutations population
b^{d}=Population of baseb neodigibreed at digitality (d)
Since base b neodigibreed population (b^{d})=permutations (nPr) + nonpermutations (c)
DISCUSSION
Why the base 4 AUGC neodigibreed is littered with carcasses?
The base 4 AUGC neodigibreed generated by the successive collateral posting method in an elongated Punnett Square to the mature digitality level 4 region is the home of all categories of integral numbers of digitality 4. However, to the combinatorist prospecting for genetic code treasure therein, it is only a mixture of permutations and nonpermutations at each of the digitalities 2, 3 and 4. So he separates the two categories by crossing out the nonpermutations along the way to leave a residue of 24 permutation quadruplets in the mature digitality 4 region for collection as the treasure found. Therefore, litters numbering 232 isodigital quadruplets in Charts 1 and 2 represent the carcasses (worthless remains) of nonpermutations in the region of exploitation for the true genetic code of 24 quadruplets.
Aftermath of genetic code exploration
Genetic code exploration is more or less a mining activity in the base 4 AUGC neodigibreed quarry which leaves the landscape littered with 232 worthless remains of nonpermutations after extraction of the genetic code treasure. The fully exploited base 4 AUGC neodigibreed is evidently a degraded mining site. Why the genetic code survived the decimation visited upon the AUGC Neodigibreed quadruplet population by deisodigitation.
The 24quadruplet genetic code survived the decimation, because of the following four reasons.
And as such, no agency whatsoever can thwart it! This is reminiscent:
(i) The genetic code is the product of the Creator’s substitution of four RNA bases AUGC for twenty amino acids of protein for permutation synthesis for servicing protein synthesis geared to protein type composition and protein type proliferation and diversification with the objective of simplification and canalization of why Jesus Christ (Emmanuel, God with us, Matthew 1 v 23) as God’s substitute for mankind to die for the penalty for the sin of the world (John 1 v 29), could not be killed in babyhood, when Herod ordered the killing of all male children from two years downward in Bethlehem and in all the coasts thereof in an attempt to eliminate baby Jesus Christ as a feared rival king (Matthew 2), contrary to God’s gracious redemption plan for fallen man (Roman 5 v 12).
(ii) The 24quadruplet genetic code survived the deisodigitation, because it is a sequence of permutation quadruplets which are free from isodigitation of any kind.
(iii) The genetic code has codon integrity for immunity against the decimation targeted at isodigitation. Codon integrity means a codon has the complete set of four base types as contained in the input set, the forebear. This again is reminiscent of the token of blood on the doorposts of the houses of the Israelites in Egypt for their immunity against the tenth plaque of killing the first born of all Egyptian households and cattle penultimate night of the flight of the Israelites from Egypt (Exodus Chapter 12).
(iv) Lastly, the 24 quadruplet genetic code owes its preservation from the decimation visited upon the base 4 AUGC neodigibreed at digitality level 4 by deisodigitation to integrity and compatibility of its codons, in tandem with the scriptural averment that integrity and uprightness can be waited upon for one’s preservation as per Psalm. 25 v 21 which says “let integrity and uprightness preserve me: for I wait on thee”, inasmuch as compatibility is the science equivalence of scripture’s uprightness, where both command acceptance and acceptability anytime anywhere and are welcome. These analogies between Science and Scripture cited are among many others that reveal the mutuality between them to the extent that they are more profitably utilized as the two opposite faces of the coin of Creation, where ALL in entirety, seen or unseen, belong.
The 24 quadruplet genetic code and the minority theory of impurity
The minority theory of impurity states that a few pure healthy grains in the midst of a mass of some other pure healthy grains are doomed to rejection as an impurity. The 24 quadruplet genetic code is represented as permutations in the base 4 AUGC neodigibreed of 256 quadruplet digitisms (units) wherein 232 quadruplet nonpermutations also dwell. The ratio of permutations to nonpermutations is given by 24:232::3:29, hence the permutations are in the negligible minority and therefore subject to rejection under the dictates of the minority theory of impurity. Yet, the 24 quadruplets in the base 4 AUGC neodigibreed, the only indirect source of the true genetic code, is not only able to defy the impurity theory of minority in its habitat, but also to reverse it to the disadvantage of its contemporary in the overwhelming majority, namely the 232 nonpermutations. The fate of the nonpermutation majority in the base 4 AUGC neodigibreed from the joint pictorial account by Charts 1 and 2 concerning the slain members is nothing but dolor (distress and sorrow).
Observation: It is observed in Charts 1 and 2 that
(i) NonIsodigit plus NonIsodigit→ NonIsodigit Product
(ii) NonIsodigit plus Isodigit → Isodigit Product
(iii) Isodigit plus NonIsodigit → Isodigit Product
(iv) Isodigit plus Isodigit → Isodigit Product
Nonisodigit representing the pure cannot undo isodigit representing the impure as per line (ii), whereas isodigit (impure) can undo nonisodigit (pure) as in line (iii). These results are phenomenal in the material domain in Science and also in Scripture (Haggai 2 v 1213).
CONCLUSION
The base 4 AUGC neodigibreeed is a quarry, indeed a treasuretrove from which this combinatorist in recent times has successfully mined the 24 quadruplet permutation codons from the digitality 4 region for his microbiologist clients that are committed to throwing light on the structure of the true genetic code in the context of its involvement in protein synthesis. The most urgent need of the 24quadruplet genetic code straight from the quarry is neither that of refinement nor purification, but supremely that of spelling, whereby its codons can be experimentally allocated to the 20 amino acids of protein and four place and time based start/stop signals needful and operational in protein synthesis in NATURE. Collinearity between the code and amino acids of protein works on uniqueness of individuals mutually amongst them involving 24 unique quadruplet codons and 20 also unique amino acids of protein on one to one correspondence, whereby the four spare unique codons serve as four time and place based start/stop control signals during protein synthesis effected by the 24 quadruplet genetic code as the workforce.
RECOMMENDATION
This 24 quadruplet genetic code being combinatorically sound is recommended to experimental experts in molecular biology, genetics, etc., fields for spelling to render it fit for adoption in coding application in protein studies, so as to free the world of science from the error of the 64triplet genetic code currently in use.
1. Becker WM (1986) The world of the cell. The Benjamin and Cummings Publishing Company, Inc.
2. Bozegha WB (2004) Solid state mixing highway to permutations and combinations computation. (Unpublished).
3. Bozegha WB (2008) Computational applications of inter serial numbering. (Unpublished).
4. Crick FRC (1962) Genetic code ii. Sci Am J.
5. Hornsby EJ Jr. (1990) Mathematical ideas. 6^{th} Edn. London, Harper Collins Publisher.
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