The High Voltage Electron Microscope Facility is a Biotechnology Resource of the Biotechnology Resources Branch of N.I.H. and is available to bio-medical researchers for ultrastructural studies where use of a high voltage electron microscope can provide new information. Investigations are directed especially towards analysis of relatively large and complex three-dimensional cell structures either in intact cells or isolated organelles, such as isolated flagella, chromosomes and Golgi complexes, or in sections up to 1 or 2 microns thick. The cold stage will undergo further development and modification. Freezing and cold sample handling procedures have been developed for viewing frozen sections, whole specimens, isolated cell components and aqueous suspensions. An improved type of image intensifier and digital image/memory processor has been installed and successfully used. This is part of a program to improve resolution and performance at high magnification in order to make possible high resolution studies of macromolecular crystals. The H.V.E.M. is particularly well suited to high resolution studies of this type because of its greater penetrating power, its greater depth of field and because of its greater specimen chamber size, one sufficiently large to permit introduction of ancillary equipment such a tilting/cooling stages which are necessary to preserve and orient these biological structures. Methods are being developed for immunocytochemical labeling of cell structures such as cytoskeletal elements, both in cell whole mounts and in thick sections.

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
5P41RR000570-16
Application #
3103662
Study Section
(SSS)
Project Start
1974-12-01
Project End
1989-11-30
Budget Start
1985-12-01
Budget End
1986-11-30
Support Year
16
Fiscal Year
1986
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Type
Schools of Arts and Sciences
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Malecki, Marek; Putzer, Emily; Sabo, Chelsea et al. (2014) Directed cardiomyogenesis of autologous human induced pluripotent stem cells recruited to infarcted myocardium with bioengineered antibodies. Mol Cell Ther 2:
Malecki, Marek (2014) 'Above all, do no harm': safeguarding pluripotent stem cell therapy against iatrogenic tumorigenesis. Stem Cell Res Ther 5:73
Mavroudi, Maria; Zarogoulidis, Paul; Porpodis, Konstantinos et al. (2014) Stem cells' guided gene therapy of cancer: New frontier in personalized and targeted therapy. J Cancer Res Ther (Manch) 2:22-33
Malecki, Marek; Tombokan, Xenia; Anderson, Mark et al. (2013) TRA-1-60(+), SSEA-4(+), POU5F1(+), SOX2(+), NANOG(+) Clones of Pluripotent Stem Cells in the Embryonal Carcinomas of the Testes. J Stem Cell Res Ther 3:
Malecki, Marek (2013) Improved targeting and enhanced retention of the human, autologous, fibroblast-derived, induced, pluripotent stem cells to the sarcomeres of the infarcted myocardium with the aid of the bioengineered, heterospecific, tetravalent antibodies. J Stem Cell Res Ther 3:
Malecki, Marek; Dahlke, Jessica; Haig, Melissa et al. (2013) Eradication of Human Ovarian Cancer Cells by Transgenic Expression of Recombinant DNASE1, DNASE1L3, DNASE2, and DFFB Controlled by EGFR Promoter: Novel Strategy for Targeted Therapy of Cancer. J Genet Syndr Gene Ther 4:152
Zarogoulidis, Paul; Darwiche, Kaid; Sakkas, Antonios et al. (2013) Suicide Gene Therapy for Cancer - Current Strategies. J Genet Syndr Gene Ther 4:
Malecki, Marek; Sabo, Chelsea; Putzer, Emily et al. (2013) Recruitment and retention of human autologous CD34+ CD117+ CD133+ bone marrow stem cells to infarcted myocardium followed by directed vasculogenesis: Novel strategy for cardiac regeneration. Mol Cell Ther 1:
Malecki, Marek; LaVanne, Christine; Alhambra, Dominique et al. (2013) Safeguarding Stem Cell-Based Regenerative Therapy against Iatrogenic Cancerogenesis: Transgenic Expression of DNASE1, DNASE1L3, DNASE2, DFFB Controlled By POLA1 Promoter in Proliferating and Directed Differentiation Resisting Human Autologous Pluripotent J Stem Cell Res Ther Suppl 9:
Malecki, Marek; Malecki, Bianca (2012) Routing of Biomolecules and Transgenes' Vectors in Nuclei of Oocytes. J Fertili In Vitro 2012:108-118

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