Subhendra N. Mattagajasingh scite author profile

Red blood cell protein 4.1 (4.1R) is an 80- kD erythrocyte phosphoprotein that stabilizes the spectrin/actin cytoskeleton. In nonerythroid cells, multiple 4.1R isoforms arise from a single gene by alternative splicing and predominantly code for a 135-kD isoform. This isoform contains a 209 amino acid extension at its NH2 terminus (head piece; HP). Immunoreactive epitopes specific for HP have been detected within the cell nucleus, nuclear matrix, centrosomes, and parts of the mitotic apparatus in dividing cells. Using a yeast two-hybrid system, in vitro binding assays, coimmunolocalization, and coimmunoprecipitation studies, we show that a 135-kD 4.1R isoform specifically interacts with the nuclear mitotic apparatus (NuMA) protein. NuMA and 4.1R partially colocalize in the interphase nucleus of MDCK cells and redistribute to the spindle poles early in mitosis. Protein 4.1R associates with NuMA in the interphase nucleus and forms a complex with spindle pole organizing proteins, NuMA, dynein, and dynactin during cell division. Overexpression of a 135-kD isoform of 4.1R alters the normal distribution of NuMA in the interphase nucleus. The minimal sequence sufficient for this interaction has been mapped to the amino acids encoded by exons 20 and 21 of 4.1R and residues 1788–1810 of NuMA. Our results not only suggest that 4.1R could, possibly, play an important role in organizing the nuclear architecture, mitotic spindle, and spindle poles, but also could define a novel role for its 22–24-kD domain.

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Methods to Increase the Percentage of Free Fetal DNA Recovered From the Maternal Circulation

Dhallan¹,

Au²,

Mattagajasingh³

et al. 2004

JAMA

124

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RENATAL DIAGNOSIS IS USEFULfor managing a pregnancy with an identified fetal abnormality and may allow for planning and coordinating care during delivery and the neonatal period. 1 A variety of prenatal diagnostic tests are available but have limitations. Noninvasive tests such as maternal serum marker testing and ultrasound can be used to screen for the presence of chromosomal abnormalities but are not definitive. [2][3][4][5] On the other hand, invasive diagnostic tests (eg, amniocentesis, chorionic villus sampling, percutaneous umbilical blood sampling) for fetal chromosomal abnormalities are highly reliable, but the procedure used for each test carries a risk for loss of pregnancy. 6,7 Many patients who are candidates for these tests decline them because of the risk of pregnancy loss.An alternative to existing methods for prenatal diagnosis is to use fetal cells and fetal DNA that exist in the maternal circulation. [8][9][10][11][12][13][14][15] Circulating fetal DNA has been used to determine the sex of the fetus through detection of sequences present on the Y chromosome. 13 In addition, several studies have

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TIMAP, a novel CAAX box protein regulated by TGF-β1 and expressed in endothelial cells

Cao

Mattagajasingh

et al. 2002

American Journal of Physiology-Cell Physiology

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Representational difference analysis of the glomerular endothelial cell response to transforming growth factor-beta1 (TGF-beta1) revealed a novel gene, TIMAP (TGF-beta-inhibited membrane-associated protein), which contains 10 exons and maps to human chromosome 20.q11.22. By Northern blot, TIMAP mRNA is highly expressed in all cultured endothelial and hematopoietic cells. The frequency of the TIMAP SAGE tag is much greater in endothelial cell SAGE databases than in nonendothelial cells. Immunofluorescence studies of rat tissues show that anti-TIMAP antibodies localize to vascular endothelium. TGF-beta1 represses TIMAP through a protein synthesis- and histone deacetylase-dependent process. The TIMAP protein contains five ankyrin repeats, a protein phosphatase-1 (PP1)-interacting domain, a COOH-terminal CAAX box, a domain arrangement similar to that of MYPT3, and a PP1 inhibitor. A green fluorescent protein-TIMAP fusion protein localized to the plasma membrane in a CAAX box-dependent fashion. Hence, TIMAP is a novel gene highly expressed in endothelial and hematopoietic cells and regulated by TGF-beta1. On the basis of its domain structure, TIMAP may serve a signaling function, potentially through interaction with PP1.

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