Gábor Vajta

From Wikipedia, the free encyclopedia
Gábor Vajta
Vajta1.png
Born (1952-08-25) 25 August 1952 (age 69)
Vác, Hungary
NationalityAustralian, Hungarian
Known forHMC (Handmade Cloning)
Scientific career
FieldsEmbryologist
Websitegaborvajta.wix.com/gaborvajta/

Gábor Vajta (born 25 August 1952) is a medical doctor, human pathologist and mammalian embryologist living in Cairns, Queensland, Australia. Vajta is an Honorary Professor of the BGI College, Shenzhen, China, and Adjuct Professor of the Central Queensland University, Rockhampton, Queensland, Australia. After an early career (university lecturer, PhD) in human pathology he turned to embryology in 1989 and obtained a Doctor of Science degree in Domestic Animal Embryology at the Royal Veterinary and Agricultural University in Copenhagen, Denmark in 1999. During the past 25 years he has co-developed several patents relating to embryology, most notably the method of Handmade Cloning (HMC),[1] the Submarine Incubation System (SIS),[2] the Open Pulled Straw (OPS)[3] vitrification and the Well of the Well (WOW)[4] system. Currently Professor Vajta is director of a consulting company providing services in human and domestic animal embryology all over the world.

Research[]

Vajta’s contribution in embryology includes authorship in 343 publications cited 8434 times.[5] He was author or co-editor of five books and theses, and reviewer of journals including Human Reproduction; Reproductive Biomedicine Online;[6] Reproduction; Biology of Reproduction, Cryobiology;[7] Reproduction, Nutrition, Development;[8] Reproduction, Fertility and Development; Theriogenology;[9] Animal Reproduction Science;[10] Reproduction in Domestic Animals; and Cellular Reprogramming.[11]

Handmade cloning[]

Vajta is one of several co-developers of handmade cloning (HMC).[12]

HMC is a radical technical modification of Somatic cell nuclear transfer of the original mammalian nuclear transfer technology established by Willadsen and applied for somatic cells by Wilmut and Campbell. The technique does not require micromanipulators only a simple stereomicroscope and an inexpensive fusion machine. All work is done by hand, with simple handheld tools (blade and micropipette). The first cloned animals in Africa[13][14] and Scandinavia[15] were both produced by HMC. Transgenic pigs as models for various human diseases were produced with putative genes responsible for Parkinson's and Alzheimer's disease, Psoriasis, Arteriosclerosis and Diabetes mellitus. The technology promises a new possibility for automation of the somatic cell nuclear transfer procedure. The birth of the first transgenic piglets containing the Alzheimer gene (29 October 2006)[16] was rewarded as the Most important Scientific Achievement in Denmark in 2007.[17]

Open pulled straw vitrification[]

Open pulled straw (OPS) is the first purpose-developed tool for mammalian embryo and oocyte vitrification that has resulted in many breakthroughs in human and animal cryobiology including the first baby born after vitrification of human oocytes,[18] and the first cloned mammal born after cryopreservation of the reconstructed embryo.[19] OPS is also regarded as the most appropriate carrier tool for vitrification of human embryonic stem cells (hESCs).[20]

References[]

  1. ^ Vajta, G. B.; Lewis, I. M.; Hyttel, P.; Thouas, G. A.; Trounson, A. O. (2001). "Somatic Cell Cloning without Micromanipulators". Cloning. 3 (2): 89–95. doi:10.1089/15204550152475590. PMID 11900643.
  2. ^ Vajta, G.; Holm, P.; Greve, T.; Callesen, H. (1997). "The submarine incubation system, a new tool for in vitro embryo culture: A technique report". Theriogenology. 48 (8): 1379. doi:10.1016/S0093-691X(97)00379-8.
  3. ^ Vajta, G.; Holm, P.; Kuwayama, M.; Booth, P. J.; Jacobsen, H.; Greve, T.; Callesen, H. (1998). "Open pulled straw (OPS) vitrification: A new way to reduce cryoinjuries of bovine ova and embryos". Molecular Reproduction and Development. 51 (1): 53–58. doi:10.1002/(SICI)1098-2795(199809)51:1<53::AID-MRD6>3.0.CO;2-V. PMID 9712317.
  4. ^ Vajta, G.; Peura, T. T.; Holm, P.; Páldi, A.; Greve, T.; Trounson, A. O.; Callesen, H. (2000). "New method for culture of zona-included or zona-free embryos: The Well of the Well (WOW) system". Molecular Reproduction and Development. 55 (3): 256–264. doi:10.1002/(SICI)1098-2795(200003)55:3<256::AID-MRD3>3.0.CO;2-7. PMID 10657044.
  5. ^ Gábor Vajta publications indexed by Google Scholar
  6. ^ "Website of Reproductive Biomedicine Online (journal)"
  7. ^ "Website of Cryobiology (journal)"
  8. ^ "Website of Reproduction, Nutrition, Development (journal)"
  9. ^ "Website of Theriogenology (journal)"
  10. ^ "Website of Animal Reproduction Science (journal)"
  11. ^ "Website of Cellular Reprogramming (journal)"
  12. ^ "Cell Nuclear Transfer" patent no. US20090119787
  13. ^ ""Futi on Embryo Plus"". Archived from the original on 2012-05-03. Retrieved 2013-09-15.
  14. ^ "Futi on BBC”
  15. ^ "Danish piglets”
  16. ^ Kragh, P. M.; Nielsen, A. L.; Li, J.; Du, Y.; Lin, L.; Schmidt, M.; Bøgh, I. B. C.; Holm, I. E.; Jakobsen, J. E.; Johansen, M. G.; Purup, S.; Bolund, L.; Vajta, G. B.; Jørgensen, A. L. (2009). "Hemizygous minipigs produced by random gene insertion and handmade cloning express the Alzheimer's disease-causing dominant mutation APPsw". Transgenic Research. 18 (4): 545–558. doi:10.1007/s11248-009-9245-4. PMID 19184503.
  17. ^ "Ingeniøren Magazine" in Danish language
  18. ^ Kuleshova, L. (1999). "Birth following vitrification of a small number of human oocytes: Case Report". Human Reproduction. 14 (12): 3077–3079. doi:10.1093/humrep/14.12.3077. PMID 10601099.
  19. ^ Tecirlioglu, R. T.; French, A. J.; Lewis, I. M.; Vajta, G.; Korfiatis, N. A.; Hall, V. J.; Ruddock, N. T.; Cooney, M. A.; Trounson, A. O. (2003). "Birth of a cloned calf derived from a vitrified hand-made cloned embryo". Reproduction, Fertility and Development. 15 (7): 361. doi:10.1071/RD03052. PMID 14984692.
  20. ^ Reubinoff, B. E. (2001). "Effective cryopreservation of human embryonic stem cells by the open pulled straw vitrification method". Human Reproduction. 16 (10): 2187–2194. doi:10.1093/humrep/16.10.2187.

External links[]

Retrieved from ""