Microglial TIA1-mediated stress granules promote neuroinflammation and aggravate neuron loss in mice after ischemic stroke by inhibiting IGF2 signaling. [PDF]
TheranosticsQian Y +9 more
europepmc +1 more source
Longitudinal <i>in vivo</i> (<i>R</i>)-[<sup>18</sup>F]FBFP PET imaging for preclinical evaluation of cerebral sigma-1 receptor after ischemic stroke. [PDF]
TheranosticsYang J +13 more
europepmc +1 more source
Intraventricular continuous BDNF administration ameliorates neuroinflammation and enhances neurogenesis against rodent intracerebral hemorrhage model. [PDF]
Front NeurolLin TC +5 more
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MNSs and Gerbich Blood Group Systems
2020Human red blood cell membranes contain four sialic acid-rich glycoproteins, denoted as glycophorins (GPs), that carry the antigens of the MNSs and Gerbich (Ge) blood group systems. The MNSs locus corresponds to two related and adjacent genes that encode the polypeptide sequences of two of these molecules: GP A and GP B.
J J, Moulds, W, Dahr
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Vr, an Antigen Belonging to the MNSs Blood Group System
Vox Sanguinis, 1958SummaryAn antibody, anti‐Vr, has been found which identifies a “new” antigen belonging to the MNSs system. The antigen is rare: three examples were found in testing the blood of 1200 random Dutch donors. The antigen is inherited as a dominant character. The gene Vr is not an allele of MN or of Ss; in the three families so far tested it is travelling on
M, VAN DER HART +4 more
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IMMUNOCHEMICAL ASPECTS OF THE MNSs‐BLOOD GROUP SYSTEM
International Journal of Immunogenetics, 1975SUMMARYExperimental data are discussed which indicate that one alkali‐labile tetrasaccharide present on each MN‐glycoprotein subunit is part of the M‐ and N‐antigen receptor site. It is concluded therefore that the difference between M‐ and N‐antigens resides in the amino acid sequence of the glycoprotein.
W. Dahr, G. Uhlenbruck, H. Knott
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Studies on the receptors of the MNSs blood group system
Blut, 1976Results with modified human red cell membrane sialoglycoproteins indicate that alkali-labile sialic acid and amino groups are parts of the erythrocyte receptor sites recognized by common rabbit and human anti-M and -N sera. The „N“ antigen, demonstrable in MM glycoprotein preparations by rabbit anti-N, has structural properties which are similar to ...
Gerhard Uhlenbruck +3 more
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A New Rare Blood Group Antigen, ‘FAR’, Probably Linked to the MNSs System
Vox Sanguinis, 1974Abstract. A new, rare antigen, FAR, was discovered in connection with a hemolytic disease of the newborn. This very rare antigen was not encountered in 14,273 Caucasians tested. It is probably linked to the MNSs system (p < 0.004). The anti‐FAR antibody, which is of immune origin, is also very rare: it has been sought unsuccessfully in 541 sera ...
R, Cregut +4 more
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The two major human red cell agglutinogens M and N were discovered in 1927 by Landsteiner and Levine by means of reagents obtained from the sera of rabbits immunized with human group O cells (Landsteiner and Levine 1927a,b). The anti-M and anti-N reagents so obtained defined three MN types in human blood, M, N and MN, attributed to the action of two ...
W. W. Socha, A. Blancher
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Miltenberger Subsystem of the MNSs Blood Group System: Review and Outlook
Vox Sanguinis, 1992AbstractThe Miltenberger (Mi) classes represent a group of phenotypes for red cells that carry low frequency antigens associated with the MNSs blood group system. The antigens of this system are known to be located on two sialoglycoproteins denoted as glycophorin A (GP A) and GP B.
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