From Jenalumar to Ultrafast Microscopy of Living Cells
| KOZUBEK, Stanislav and Michal KOZUBEK. From Jenalumar to Ultrafast Microscopy of Living Cells. In Biophysics of the Genome. First Edition 2004. Brno: Masaryk University, 2004, p. 47-52. ISBN 80-210-3560-9. |
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| Basic information | |
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| Original name | From Jenalumar to Ultrafast Microscopy of Living Cells |
| Name in Czech | Od Jenalumaru k ultrarychlé mikroskopii živých buněk |
| Authors | KOZUBEK, Stanislav (203 Czech Republic, guarantor) and Michal KOZUBEK (203 Czech Republic). |
| Edition | First Edition 2004. Brno, Biophysics of the Genome, p. 47-52, 6 pp. 2004. |
| Publisher | Masaryk University |
| Other information | |
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| Original language | English |
| Type of outcome | Proceedings paper |
| Field of Study | 20200 2.2 Electrical engineering, Electronic engineering, Information engineering |
| Country of publisher | Czech Republic |
| Confidentiality degree | is not subject to a state or trade secret |
| RIV identification code | RIV/00216224:14330/04:00009702 |
| Organization unit | Faculty of Informatics |
| ISBN | 80-210-3560-9 |
| Keywords in English | Fish; Optical microscopy |
| Tags | FISH, optical microscopy |
| Tags | International impact |
| Changed by | Changed by: prof. RNDr. Michal Kozubek, Ph.D., učo 3740. Changed: 29/10/2010 14:33. |
| Abstract |
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| After revolution in 1989, fluorescence in situ hybridization (FISH) became known and promising technique for both research and practice. It provided excellent spatial resolution for mitotic chromosomes as well as for interphase nuclei and high signal/noise ratio provided by fluorescence microscope. |
| Abstract (in Czech) |
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| Od Jenalumaru k ultrarychlé mikroskopii živých buněk. |
| Links | |
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| AV0Z5004920, plan (intention) | Name: Biofyzikální vlastnosti živých systémů a jejich změny vlivem faktorů vnějšího prostředí |
| GA202/02/0804, research and development project | Name: Určení radiačního rizika pro vznik chronické myeloidní leukémie na základě měření vzdáleností mezi geny ABL a BCR v hematopoietických buňkách |
| Investor: Czech Science Foundation, Chronic myeloid leukemia radiation risk estimation based on BCR-ABL distances in hemotopoietic cells | |
| GA202/04/0907, research and development project | Name: Cytometrie s vysokým rozlišením na živých buňkách |
| Investor: Czech Science Foundation, High-resolution cytometry of living cells | |
| IAA5004306, research and development project | Name: Struktura lidského genomu |
| Investor: Academy of Sciences of the Czech Republic, Human genome structure | |
| IBS5004010, research and development project | Name: Vývoj nových diagnostických technik pro onkologii |
| Investor: Academy of Sciences of the Czech Republic, Development of new diagnostic teniques for oncology | |
| ME 565, research and development project | Name: Struktura a funkce interfázních chromosomů |
| NC6987, research and development project | Name: Epigeneticky kontrolované změny exprese genů u nádorových onemocnění |
| Investor: Ministry of Health of the CR, Epigenetic control of gene expression in malignant diseases | |
| 1A8241, research and development project | Name: Nové možnosti diagnostiky leukémií s využitím technologie DNA-mikročipů |
| Investor: Ministry of Health of the CR, New possibilities of diagnostics of leukemia using DNA-microarrays | |
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