Register      Login
Historical Records of Australian Science Historical Records of Australian Science Society
The history of science, pure and applied, in Australia, New Zealand and the southwest Pacific
EDITORIAL (Open Access)

George Ernest Rogers 1927–2021

Racheline (Lynn) Rogers https://orcid.org/0000-0002-0938-4608 A *
+ Author Affiliations
- Author Affiliations

A Department of Molecular and Biomedical Science, School of Biological Sciences, The University of Adelaide, SA 5005, Australia.

* Correspondence to: lynn.rogers@adelaide.edu.au

Historical Records of Australian Science 34(2) 144-157 https://doi.org/10.1071/HR23004
Published: 22 June 2023

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the Australian Academy of Science. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

George Rogers (1927–2021) was elected to Fellowship of the Academy in 1977 for his outstanding contributions to our knowledge of the molecular structure of keratins and the biochemistry of keratinisation. He was a pioneer in the application of electron microscopy to hair and wool ultrastructure and to that of the hair follicle. He discovered citrulline in keratin proteins, and the enzymes, roles, and histochemical localisation of transglutaminase and peptidylarginine deiminase (PAD). He was the first to demonstrate ribosomal-dependent keratin protein synthesis in 1965 followed by detailed studies of the biosynthesis of hair keratin proteins. His research initiated studies on the molecular events in the development of the feather follicle and later led to the cloning and characterisation of the clustered genes of feather and related avian keratins. He also cloned and characterised genes for the three classes of wool keratin proteins and studied the transcription of keratin genes. In 1977, he was awarded a DSc by the University of Adelaide in recognition for his work. In 2013, he was made an Officer in the Order of Australia.

Keywords: biochemistry, hair and wool structure, historical article, keratin, microscope, molecular biology, wool synthesis.


References

Blake, C. C. F., Koenig, D. F., Mair, G. A., North, A. C. T., Phillips, D. C., and Sarma, V. R. (1965) Structure of hen egg-white lysozyme: a three-dimensional Fourier synthesis at 2 Å resolution, Nature, 206, 757–761.
Structure of hen egg-white lysozyme: a three-dimensional Fourier synthesis at 2 Å resolutionCrossref | GoogleScholarGoogle Scholar |

Clarke, R. M. and Rogers, G. E. (1965a) ‘An approach to the investigation of protein biosynthesis in hair follicles’, in Biology of the Skin and Hair Growth, eds A. F. Lyne and B. F. Short, Angus and Robertson, pp. 329–343.

Clarke, R. M., and Rogers, G. E. (1965b) Keratin protofilaments and ribosomes from hair follicles, Nature, 205, 77–78.
Keratin protofilaments and ribosomes from hair folliclesCrossref | GoogleScholarGoogle Scholar |

D’Andrea, R. J., Sivaprasad, A. V., Bawden, S., Kuczek, E. S., Whitbread, L. A., and Rogers, G. E. (1987) ‘Isolation of microbiol genes for cysteine synthesis and prospects for their use in increasing wool growth’, in The Biology of Wool and Hair, eds G. E. Rogers, P. J. Reiss, K. A. Ward, and R. C. Marshall, Chapman and Hall, London/New York, pp. 447–463.

Dhouailly, D., Rogers, G. E., and Sengel, P. (1978) The specification of feather and scale protein synthesis in epidermal-dermal recombination, Developmental Biology, 65, 58–68.
The specification of feather and scale protein synthesis in epidermal-dermal recombinationCrossref | GoogleScholarGoogle Scholar |

Downes, A. M., Sharry, L. F., and Rogers, G. E. (1963) Separate synthesis of fibrillar and matrix proteins in the formation of keratin, Nature, 199, 1059–1061.
Separate synthesis of fibrillar and matrix proteins in the formation of keratinCrossref | GoogleScholarGoogle Scholar |

Filshie, B. K., and Rogers, G. E. (1962) An electron microscope study of the fine structure of feather keratin, Journal of Cell Biology, 13, 1–12.
An electron microscope study of the fine structure of feather keratinCrossref | GoogleScholarGoogle Scholar |

Fraser, B. (2008) ‘Professor George Rogers, biochemist’, https://www.science.org.au/learning/general-audience/history/interviews-australian-scientists/professor-george-rogers#12, viewed January 2023.

Fraser, R. D. B. and Rogers, G. E. (1956) ‘The bilateral structure of wool cortex’, in Proceedings of International Wool Textile Research Conference Australia, 1955, vol. F, pp. 151–155.

Fraser, R. D. B., MacRae, T. P., and Rogers, G. E. (1960) 33—Recent observations on the structure of α-keratin, Journal of the Textile Institute Transactions, 51, T497–T505.
33—Recent observations on the structure of α-keratinCrossref | GoogleScholarGoogle Scholar |

Fraser, R. D. B., MacRae, T. P., and Rogers, G. E. (1972) Keratins: Their Composition, Structure and Biosynthesis, C. Thomas, Springfield, III.

Frenkel, M. J., Powell, B. C., Ward, K. A., Sleigh, M. J., and Rogers, G. E. (1989) The keratin BIIIB gene family: isolation of cDNA clones and structure of a gene and a related pseudogene, Genomics, 4, 182–191.
The keratin BIIIB gene family: isolation of cDNA clones and structure of a gene and a related pseudogeneCrossref | GoogleScholarGoogle Scholar |

Furphy, S. (2005) Selbys the Science People: A History of H. B. Selby Australia Limited, Australian Scholarly Publishing, Melbourne.

Glauert, A. M., Rogers, G. E., and Glauert, R. H. (1956) A new embedding medium for electron microscopy, Nature, 178, 803.
A new embedding medium for electron microscopyCrossref | GoogleScholarGoogle Scholar |

Harding, H. W. J., and Rogers, G. E. (1971) ε-(γ-glutamyl)lysine cross-linkage in citrulline-containing protein fractions from hair, Biochemistry, 10, 624–630.
ε-(γ-glutamyl)lysine cross-linkage in citrulline-containing protein fractions from hairCrossref | GoogleScholarGoogle Scholar |

Harding, H. W. J., and Rogers, G. E. (1972a) The occurrence of the ε-(γ-glutamyl)lysine cross-link in the medulla of hair and quill, Biochimica et Biophysica Acta, 257, 37–39.
The occurrence of the ε-(γ-glutamyl)lysine cross-link in the medulla of hair and quillCrossref | GoogleScholarGoogle Scholar |

Harding, H. W. J., and Rogers, G. E. (1972b) Formation of the ε-(γ-glutamyl)lysine crosslink in hair proteins. Investigation of transamidases in hair follicles, Biochemistry, 11, 2858–2863.
Formation of the ε-(γ-glutamyl)lysine crosslink in hair proteins. Investigation of transamidases in hair folliclesCrossref | GoogleScholarGoogle Scholar |

Harding, H. W. J., and Rogers, G. E. (1976) Isolation of peptides containing citrulline and the crosslink ε-(γ-glutamyl)lysine, from hair medulla protein, Biochimica et Biophysica Acta, 427, 315–324.
Isolation of peptides containing citrulline and the crosslink ε-(γ-glutamyl)lysine, from hair medulla proteinCrossref | GoogleScholarGoogle Scholar |

Humphreys, L. R. (2004) Trikojus. A Scientist for Interesting Times, Miegunyah Press, Melbourne.

Keough, R., Powell, B., and Rogers, G. (1995) Targeted expression of SV40 T antigen in the hair follicle of transgenic mice produces an aberrant hair phenotype, Journal of Cell Science, 108, 957–966.
Targeted expression of SV40 T antigen in the hair follicle of transgenic mice produces an aberrant hair phenotypeCrossref | GoogleScholarGoogle Scholar |

Koltunow, A. M., Gregg, K., and Rogers, G. E. (1986) Intron sequences modulate feather keratin gene transcription in Xenopus oocytes, Nucleic Acids Research, 14, 6375–6392.
Intron sequences modulate feather keratin gene transcription in Xenopus oocytesCrossref | GoogleScholarGoogle Scholar |

Lockett, T. J., Kemp, D. J., and Rogers, G. E. (1979) Organization of the unique and repetitive sequences in feather keratin messenger ribonucleic acid, Biochemistry, 18, 5654–5663.
Organization of the unique and repetitive sequences in feather keratin messenger ribonucleic acidCrossref | GoogleScholarGoogle Scholar |

Morris, C. P., and Rogers, G. E. (1979) The terminal structures of feather keratin mRNA, Molecular Biology Reports, 5, 145–149.
The terminal structures of feather keratin mRNACrossref | GoogleScholarGoogle Scholar |

Powell, B. C., and Rogers, G. E. (1979) Isolation of messenger RNA coding for the “fast” protein of embryonic chick feathers, Nucleic Acids Research, 7, 2165–2176.
Isolation of messenger RNA coding for the “fast” protein of embryonic chick feathersCrossref | GoogleScholarGoogle Scholar |

Powell, B. C., and Rogers, G. E. (1990) Cyclic hair-loss and regrowth in transgenic mice overexpressing an intermediate filament gene, The EMBO Journal, 9, 1485–1493.
Cyclic hair-loss and regrowth in transgenic mice overexpressing an intermediate filament geneCrossref | GoogleScholarGoogle Scholar |

Rivett, D. E., Ward, C. W., Belkin, L. H., Ramshaw, J. A. H., and Wilshire, J. F. K. (1996) The Lennox Legacy, CSIRO Australia, Melbourne.

Rogers, G. E. (1957a) Electron microscope observations on the structure of sebaceous glands, Experimental Cell Research, 13, 517–520.
Electron microscope observations on the structure of sebaceous glandsCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E. (1957b) Electron microscope observations on the glassy layer of the hair follicle, Experimental Cell Research, 13, 521–528.
Electron microscope observations on the glassy layer of the hair follicleCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E. (1958a) Some observations on the proteins of the inner root sheath cells of hair follicles, Biochimica et Biophysica Acta, 29, 33–43.
Some observations on the proteins of the inner root sheath cells of hair folliclesCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E. (1958b) Some aspects of the structure of the inner root sheath of hair follicles revealed by light and electron microscopy, Experimental Cell Research, 14, 378–387.
Some aspects of the structure of the inner root sheath of hair follicles revealed by light and electron microscopyCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E. (1959a) Electron microscope studies of hair and wool, Annals of New York Academy of Sciences, 83, 378–399.
Electron microscope studies of hair and woolCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E. (1959b) Newer findings on the enzymes and proteins of hair follicles, Annals of New York Academy of Sciences, 83, 408–428.
Newer findings on the enzymes and proteins of hair folliclesCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E. (1966) Structure and biosynthesis in the hair follicle and related structures in symposium on electron microscope studies on the biosynthesis and assembly of fibrous proteins, Proceedings of the Royal Microscope Society, 1, 67.

Rogers, G. E. (1982) ‘Keratin genes’, in Eukaryotic Genes: Their Structure, Activity and Regulation, eds N. Maclean, S. P. Gregory, and R. A. Flavell, Butterworth, London, pp. 415–430.

Rogers, G. E. (1990) Improvement of wool production through genetic engineering, Trends in Biotechnology, 8, 6–11.
Improvement of wool production through genetic engineeringCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E. (2003) Memoir for Dr. P. M. Steinert former PhD student, Journal of Investigative Dermatology, 121, iv.

Rogers, G. E. (2013) William Herdman Elliott 1925–2012, Historical Records of Australian Science, 24, 80–95.
William Herdman Elliott 1925–2012Crossref | GoogleScholarGoogle Scholar |

Rogers, G. E., and Elliott, W. H. (2008a) Robert Henry Symons, Biographical Memoirs of Fellows of the Royal Society, 54, 383–400.
Robert Henry SymonsCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E., and Elliott, W. H. (2008b) Robert Henry Symons 1934–2006, Historical Records of Australian Science, 19, 191–213.
Robert Henry Symons 1934–2006Crossref | GoogleScholarGoogle Scholar |

Rogers, G. E., and Simmonds, D. H. (1958) Content of citrulline and other amino acids in a protein of hair follicles, Nature, 182, 186–187.
Content of citrulline and other amino acids in a protein of hair folliclesCrossref | GoogleScholarGoogle Scholar |

Rogers, G. E., Frenkel, M. J., and Lock, R. A. (1981) ‘Ribonucleic acids coding for the keratin complex of hair’, in Hair Research, eds C. E. Organos, W. Montagna, and G. Stuttgen, Springer-Verlag, pp. 84–93.

Rogers, G. E., Bawden, C. S., Cam, G. R., D’Andrea, R. J., Kuczek, E. S., Powell, B. C., and Sivaprasad, A. V. (1987) ‘A review of the genes for wool keratin and for cysteine biosynthesis: their significance for studies directed towards modified wool production’, in Merino Improvement Programs in Australia, ed. B. J. McGuirk, Australian Wool Corporation, pp. 511–518.

Rogers, G. E., Miller, A., and Parry, D. A. D. (2020) Robert Donald Bruce Fraser 1924–2019, Historical Records of Australian Science, 31, 157–168.
Robert Donald Bruce Fraser 1924–2019Crossref | GoogleScholarGoogle Scholar |

Rothnagel, J. A. and Rogers, G. E. (1983) ‘A sensitive assay for the enzyme activity in hair follicles and epidermis that catalyses the peptidyl-arginine-citrulline post-translation modification’, in Normal and Abnormal Epidermal Keratinization, eds I. A. Bernstein and M. Seiji, University of Tokyo Press, pp. 171–184.

Rothnagel, J. A. and Rogers, G. E. (1984) ‘Citrulline in proteins from the enzymatic deimination of arginine residues’, in Methods in Enzymology, eds. F. Wold and K. Moldave, vol. 107 , Academic Press, New York, pp. 624–631.

Rothnagel, J. A., and Rogers, G. E. (1986) Trichohyalin, an intermediate filament-associated protein of the hair follicle, Journal of Cell Biology, 102, 1419–1429.
Trichohyalin, an intermediate filament-associated protein of the hair follicleCrossref | GoogleScholarGoogle Scholar |

Steinert, P. M., and Rogers, G. E. (1971) The synthesis of hair keratin proteins in vitro, Biochimica et Biophysica Acta (BBA) - Nucleic Acids and Protein Synthesis, 238, 150–155.
The synthesis of hair keratin proteins in vitroCrossref | GoogleScholarGoogle Scholar |

Steinert, P. M., Harding, H. W. J., and Rogers, G. E. (1969) The characterisation of protein-bound citrulline, Biochimica et Biophysica Acta (BBA) - Protein Structure, 175, 1–9.
The characterisation of protein-bound citrullineCrossref | GoogleScholarGoogle Scholar |

Walker, S. K., Heard, T. M., Verma, P. J., Rogers, G. E., Bawden, C. S., Sivaprasad, A. V., McLaughlin, K. J., and Seamark, R. F. (1990) In vitro assessment of the viability of sheep zygotes after pronuclear microinjection, Reproduction, Fertility and Development, 2, 633–640.
In vitro assessment of the viability of sheep zygotes after pronuclear microinjectionCrossref | GoogleScholarGoogle Scholar |

Ward, K. A., Sleigh, M. J., Powell, B. C., and Rogers, G. E. (1982) The isolation and analysis of the major wool keratin gene families, Proceedings of the Second World Congress on Genetics Applied to Livestock Production, 6, 146–156.

Wilton, S. D., Crocker, L. A., and Rogers, G. E. (1985) Isolation and characterisation of keratin mRNA from the scale epidermis of the embryonic chick, Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression, 824, 201–208.
Isolation and characterisation of keratin mRNA from the scale epidermis of the embryonic chickCrossref | GoogleScholarGoogle Scholar |