Augustin-VossHGSmithCALewisRM.:
Phenotypic characterization of normal and neoplastic canine endothelial cells by lectin histochemistry.
Vet Pathol27:
103–109,
1990.
2.
BoyaJCarbonellALCalvoJLBorregonA:
Microglial cells in the central nervous system of the rabbit and rat: cytochemical identification using two different lectins.
Acta Anat140:
250–253,
1991.
3.
DamjanovI:
Biology of disease. Lectin cytochemistry and histochemistry.
Lab Invest57:
5–20,
1987.
4.
KaurCLingEAWongWC.:
Lectin labelling of amoeboid microglial cells in the brain of postnatal rats.
J Anat173:
151–160,
1990.
5.
KrinkeGNaylorDCSchmidSFroehlichESchniderK:
The incidence of naturally occurring primary brain tumors in the laboratory rat.
J Comp Pathol95:
175–192,
1985.
6.
MannojiHYegerHBeckerLE.:
A specific histochemical marker (lectin Ricinus communis agglutinin-1) for normal human microglia, and application to routine histopathology.
Acta Neuropathol (Berl)71:
341–343,
1986.
7.
NicolsonGLBlausteinJEtzlerME.:
Characterization of two plant lectins from Ricinus communis and their quantitative interaction with a murine lymphoma.
Biochemistry13:
196–204,
1974.
8.
ReeHJKadinME.:
Lectin distinction of benign from malignant histiocytes.
Cancer56:
2046–2050,
1985.
9.
SaadYAAAl-ZuhairAGHDawodB:
Ultrastructural study of phagocytic activities of young astrocytes in injured neonatal rat brain following intracerebral injection of colloidal carbon.
Glia1:
211–218,
1988.
10.
StreitWJ.:
An improved staining method for rat microglial cells using the lectin from Griffonia simplicifolia (GSAI-B4).
J Histochem Cytochem38:
1683–1686,
1990.
11.
SturrockRR.:
The beta astrocyte: its possible role as a central nervous system phagocyte.
Anat Anz166:
331–340,
1988.
12.
SuzukiHFranzHYamamotoTIwasakiYKonnoH:
Identification of the normal microglial population in human and rodent nervous tissue using lectin-histochemistry.
Neuropathol Appl Neurobiol14:
221–227,
1988.
