Post on 02-Jan-2016
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TOWARDS p-ADIC GENOMICS
Branko Dragovich Institute of Physics, Belgrade
Alexandra DragovichVavilov Institute of General Genetics, Moscow
3rd International Conference on p-Adic Mathematical Physics1-6. 10.2007, Moscow
Sun: 5 billon y, Earth: 4.6 billion y, Life: 3 billion y
Cell Structure
DNA (Deoxyribonucleic acid)
Crick and Watson (1953)
Francis Crick James Watson
Base pairing
RNA (Ribonucleic acid)
Genomics is the study of the genome, which is whole information encoded in DNA.
Nucleotides (bases) and codons
Nucleotides: C, A, U (T), G
Codons: ordered trinucleotides
4 x 4 x 4 = 64 codons
Amino acids
(Universal) Genetic Code
Modeling of the Genetic Code
• Gamov (1954), Crick (1957), Rumer (1966), …• Swanson (1984), …• J. Hornos and Y. Hornos (1993), Forger and
Sachse (2000)• Frappat, Sciarrino and Sorba (1998)
• p-Adic approach: B. Dragovich and A. Dragovich (2006), Khrennikov (2006) and Kozyrev (2007), Bradley (2007)
p-Adic Modeling of the Genetic Code
20 1 2[64] { 5 5 : 1,2,3,4}iC n n n n
p-adic codon space:
C (cytosine) = 1, A (adenine) = 2, T (thymine) = U (uracil) = 3, G (guanine) = 4 ( 0 = absence of nucleotide )
20 1 2 0 1 25 5n n n n n n
Our Table of Vertebral Mitochondrial Code
111 CCC Pro 112 CCA Pro 113 CCU Pro 114 CCG Pro
211 ACC Thr 212 ACA Thr 213 ACU Thr 214 ACG Thr
311 UCC Ser 312 UCA Ser 313 UCU Ser 314 UCG Ser
411 GCC Ala 412 GCA Ala 413 GCU Ala 414 GCG Ala
121 CAC His 122 CAA Gln 123 CAU His 124 CAG Gln
221 AAC Asn 222 AAA Lys 223 AAU Asn 224 AAG Lys
321 UAC Tyr 322 UAA Ter 323 UAU Tyr 324 UAG Ter
421 GAC Asp 422 GAA Glu 423 GAU Asp 424 GAG Glu
131 CUC Leu 132 CUA Leu 133 CUU Leu 134 CUG Leu
231 AUC Ile 232 AUA Met 233 AUU Ile 234 AUG Met
331 UUC Phe 332 UUA Leu 33 3 UUU Phe 334 UUG Leu
431 GUC Val 432 GUA Val 433 GUU Val 434 GUG Val
141 CGC Arg 142 CGA Arg 143 CGU Arg 144 CGG Arg
241 AGC Ser 242 AGA Ter 243 AGU Ser 244 AGG Ter
341 UGC Cys 342 UGA Trp 343 UGU Cys 344 UGG Trp
441 GGC Gly 442 GGA Gly 443 GGU Gly 444 GGG Gly
p-Adic Properties of the Vertebral Mitochondrial Code
• T-symmetry: doublets-doublets and quadruplets-quadruplets invariance
• 5-Adic distance gives quadruplets
• 2-Adic distance inside quadruplets gives doublets
• Degeneration of the genetic code has p-adic structure
• p-Adic degeneracy principle: Codons code amino acids and stop signals by doublets which are result of combined 5-adic and 2-adic distances
• Modern assignment of codon doublets to particular amino acids is a result of coevolution of the genetic code and amino acids: single nucleotide code – 4 amino acids, dinucleotide code – 16 amino acids, trinucleotide code 20 amino acids.
• Other (15) codes may be regarded as slight modifications of the Vertebral Mitochondrial Code
P-Adic Genomic Space
Definition: (p, q)-adic genomic space is a double
( [( 1) ], )mp qp d
where 1
0 1 1[( 1) ] { : 1,2, , 1; }m mp m ip n n p n p n p m
qd
is a set of natural numbers, and
is q-adic distance.
Examples of p-Adic Genomic Spaces
[( 1) ]mp p
• 1-nucleotide codon space: p=5, m =1• 2-nucleotide codon space: p=5, m =2• 3-nucleotide codon space: p=5, m =3• present space of amino acids: p=23, m=1• future space of amino acids: p=29, m=1• first space of amino acids: p=5, m=1• second space of amino acids: p=17, m=1
Conclusion
• Space of nucleotides is p-adic
• Space of codons is p-adic
• Genetic code has p-adic degeneration
• Genomic spaces (spaces of nucleotides, codons, DNA, RNA, amino acids, proteins) have p-1 structural units, where p = prime number.
There is p-adics in genomics!