Femtosecond laser based enucleation of porcine oocytes for somatic cell nuclear transfer

K. Kütemeyer; A. Lucas-Hahn; B. Petersen; P. Hassel; E. Lemme; H. Niemann; A. Heisterkamp

doi:10.1117/12.831880

17 July 2009 Femtosecond laser based enucleation of porcine oocytes for somatic cell nuclear transfer

K. Kütemeyer, A. Lucas-Hahn, B. Petersen, P. Hassel, E. Lemme, H. Niemann, A. Heisterkamp

Proceedings Volume 7373, Therapeutic Laser Applications and Laser-Tissue Interactions IV; 73730C (2009) https://doi.org/10.1117/12.831880
Event: European Conferences on Biomedical Optics, 2009, Munich, Germany

Abstract

Cloning of several mammalian species has been achieved by somatic cell nuclear transfer (SCNT) in recent years. However, this method still results in very low efficiencies around 1% which originate from suboptimal culture conditions and highly invasive techniques for oocyte enucleation and injection of the donor cell using micromanipulators. In this paper, we present a new minimal invasive method for oocyte imaging and enucleation based on the application of femtosecond (fs) laser pulses. After imaging of the oocyte with multiphoton microscopy, ultrashort pulses are focused onto the metaphase plate of MII-oocytes in order to ablate the DNA molecules. We show that fs laser based enucleation of porcine oocytes completely inhibits the first mitotic cleavage after parthenogenetic activation while maintaining intact oocyte morphology in most cases. In contrast, control groups without previous irradiation of the metaphase plate are able to develop to the blastocyst stage. Further experiments have to clarify the suitability of fs laser based enucleated oocytes for SCNT.

Citation Download Citation

K. Kütemeyer, A. Lucas-Hahn, B. Petersen, P. Hassel, E. Lemme, H. Niemann, and A. Heisterkamp "Femtosecond laser based enucleation of porcine oocytes for somatic cell nuclear transfer", Proc. SPIE 7373, Therapeutic Laser Applications and Laser-Tissue Interactions IV, 73730C (17 July 2009); https://doi.org/10.1117/12.831880

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KEYWORDS

Femtosecond phenomena

Multiphoton microscopy

Laser ablation

Luminescence

Ultrafast phenomena

3D image processing

Absorption

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