R Hulspas
Overview
Explore the profile of R Hulspas including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
10
Citations
71
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Degar B, Baskaran N, Hulspas R, Quesenberry P, Weissman S, Forget B
Exp Hematol
. 2001 Jul;
29(7):894-902.
PMID: 11438212
Objective: Hematopoietic stem cells (HSCs) represent a rare and incompletely characterized fraction of marrow cells that are capable of both self-renewal and differentiation into all of the mature cells in...
2.
Hulspas R, Quesenberry P
Cytometry
. 2000 Jul;
40(3):245-50.
PMID: 10878568
Background: Neural stem cell research regularly utilizes neurosphere cultures as a continuous source of primitive neural cells. Results from current progenitor cell assays show that these cultures contain a low...
3.
Quesenberry P, Hulspas R, Joly M, Benoit B, Engstrom C, Rielly J, et al.
J Neurotrauma
. 1999 Oct;
16(8):661-6.
PMID: 10511238
There are many parallels between the neuropoietic and lymphohematopoietic systems. The lymphohematopoietic stem/progenitor cell system has been extensively characterized, but there are still major questions relating to the definitive stem...
4.
Hulspas R, Tiarks C, Reilly J, Hsieh C, Recht L, Quesenberry P
Exp Neurol
. 1997 Dec;
148(1):147-56.
PMID: 9398457
Neural progenitor cell populations responsive to epidermal growth factor (EGF) have been shown to have proliferative potential and give rise to neurons, astrocytes, and oligodendrocytes. We have characterized EGF-responsive neural...
5.
Nilsson S, Hulspas R, Weier H, Quesenberry P
J Histochem Cytochem
. 1996 Sep;
44(9):1069-74.
PMID: 8773573
Studies of transplantation biology rely on the detection of donor hemopoietic cells in transplant recipients. Traditionally this has been achieved through ex vivo techniques, including flow cytometric analysis of cell...
6.
Hulspas R, Houtsmuller A, Bauman J, Nanninga N
Exp Cell Res
. 1994 Nov;
215(1):28-32.
PMID: 7957677
Using a beta-tubulin specific antibody, centrosomes were labeled in paraformaldehyde fixed human lymphocytes. Cells were kept in suspension to preserve the three-dimensional (3D) morphology as much as possible. The centrosome...
7.
Hulspas R, Houtsmuller A, Krijtenburg P, Bauman J, Nanninga N
Chromosoma
. 1994 Jul;
103(4):286-92.
PMID: 7988290
The nuclear topography of pericentromeric DNA of chromosome 11 was analyzed in G0 (nonstimulated) and G1 [phytohemagglutinin (PHA) stimulated] human lymphocytes by confocal microscopy. In addition to the nuclear center,...
8.
Hulspas R, Krijtenburg P, Keij J, Bauman J
J Histochem Cytochem
. 1993 Aug;
41(8):1267-72.
PMID: 7687265
Detection of fluorescein-5-isothiocyanate (FITC)-labeled conjugates is suboptimal in two-color confocal scanning laser microscopy (CLSM). This limits the detection of small, dimly fluorescent targets. We explored the possible advantages of applying...
9.
van Dekken H, Hulspas R
Histochem J
. 1993 Mar;
25(3):173-82.
PMID: 8473197
Non-isotopic (fluorescent) in situ hybridization has established itself as a useful technique for the localization of DNA sequences in both metaphase and interphase cells. The rapid development of digital fluorescence...
10.
Hulspas R, Bauman J
Cell Biol Int Rep
. 1992 Aug;
16(8):739-47.
PMID: 1280185
No abstract available.