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Biography
Kenji Sorimachi
Prof. Kenji Sorimachi

Educational Support Center

Dokkyo Medical University, Japan

Professor Emeritus


Email:kenjis@dokkyomed.ac.jp


Qualifications

1975 Ph.D., Faculty of Engineering, Gunma University

1971 M.S., Faculty of Engineering, Gunma University

1969 B.S., Faculty of Engineering, Gunma University


Publications (Selected)

  1. Sorimachi, K.: Evolution based on genome structure: The “diagonal genome universe” Natural Science in press.
  2. Sorimachi, K.: Codon evolution in doblue-stranded organelle DNA: Strong regulation of homonucleotides and their analog altenations. Natural Science 2,846-854, 2010.
  3. Sorimachi, K.: Genomic data provides simple evidence for a single origin of life.Natural Science 2, 519-525, 2010.
  4. Sorimachi, K.: Evolution from primitive life to Homo sapiens based on visible genome structures: The amino acid world. Natural Science 2, 107-119, 2009.
  5. Sorimachi, K.: A proposed solution to the historic puzzle of Chargaff’s second parity rule. Open Genom. J. 2, 12-14, 2009.
  6. Sorimachi, K.: and Okayasu, T. Universal rules governing genome evolution by linear formulas. Open Genom. J. 1, 33-43, 2009.
  7. Okayasu, T. and Sorimachi, K.: Organisms can essentially be classified. According to two codon patterns. Amino Acids 36, 261-271, 2008.
  8. Sorimachi, K. and Koge, T. Agaricus blazei water extracts as alternative medicines. Curr Pharma Anal 4, 39-43, 2008.
  9. Sorimachi, K. and Okayasu, T.: Codon evolution is governed by linear formulas. Amino Acids 34, 661-668, 2008.
  10. Sorimachi, K., Akimoto, K. and Koge, T.: Inhibitory effect of Agaricus blazei Murill.
  11. components on abnormal collagen fiber formation in human hepatocarcinoma cells. Biosci Biotechnol Biochem 72 (2) 621-623, 2008.
  12. Sorimachi, K.: Genome structure is homogeneous based on codon usages Current Topics in Peptide & Protein Research 8, 19-24, 19-24, 2007.
  13. Sorimachi, K. and Okayasu, T.: Mathematical proof of the chronological precedence of protein formation over codon formation. Current Topics in Peptide & Protein Research 8, 25-34, 2007.
  14. Sorimachi, K., and Okayasu, T: Simulation analysis reveals the chronological precedence of protein formation over codon formation. Genome Informatics,Cold Spring Harbor, 2005, 10-11.
  15. Okayasu, T., and Sorimachi, K.: Cluster analyses of bacteria and archaea based on amino acid compositions and codon usages. Genome Informatics, Cold Spring Harbor, 10-11, 2005.
  16. Sorimachi, K., and Okayasu, T.: Genomic structure consisting of putative units coding similar amino acid composition: Synchronous mutations in biological evolution. Dokkyo J Med Sci 32: 101-106, 2005.
  17. Sorimachi, K., Okayasu, T., Ebara, Y., and Nakagawa, T.: Mathematical proof of genomic amino acid composition homogeneity based on putative small units. Dokkyo J Med Sci 32: 99-100, 2005.
  18. Sorimachi, K. and Okayasu, T.: An evaluation of evolutionary theories based on genomic structures in Saccharomyces cerevisiae and Encephalitozoon cuniculi. Mycoscience 45: 345-350, 2004.
  19. Okayasu, T., Ebara, Y. and Sorimachi, K.: Similarity of amino acid composition based on gene assembly and different gene-size distributions among the 11 chromosomes in Encephalitozoon cuniculi. Dokkyo J. Med. Sci. 31: 1-5, 2004.