Nallur B. Ramachandra scite author profile

Background: Down syndrome (DS) is the most common chromosomal anomaly associated with mental retardation. This is due to the occurrence of free trisomy 21 (92-95%), mosaic trisomy 21 (2-4%) and translocation (3-4%). Advanced maternal age is a well documented risk factor for maternal meiotic nondisjunction. In India three children with DS are born every hour and more DS children are given birth to by young age mothers than by advanced age mothers. Therefore, detailed analysis of the families with DS is needed to find out other possible causative factors for nondisjunction.

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Copy number variation-based polymorphism in a new pseudoautosomal region 3 (PAR3) of a human X-chromosome-transposed region (XTR) in the Y chromosome

Veerappa

Padakannaya

Ramachandra

2013

Funct Integr Genomics

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A 3.5-Mb region of the X chromosome underwent duplication and transposition to the Y chromosome ~5-6 Mya. This X-transposed-region (XTR) originated at Xq21.3 and was inserted at Yp11.2. The two locations have 98.78 % homology and a high concentration of tandem repeats. In whole-genome scans of ten large families with dyslexic members, we identified transposed blocks comprising >102 kb of the Yp11.2 region in its homologous region at Xq21.3 in three females from three different families. Although recombination is known to be limited only to the pseudoautosomal regions (PARs) of the X and Y chromosomes, we report allelic unequal recombination between the XTR region Yp11.2 and Xq21.3, indicating the presence of a new PAR, which we named PAR3. This PAR3 region was also found in 2 % of the general population. An additional layer of justification could be provided from six other dyslexic cases which harbored duplications and deletions in the same Xq21.3 and Yp11.2 regions through allelic unequal recombination.

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Embryonic development in the primitive bilaterian Neochildia fusca: normal morphogenesis and isolation of POU genes Brn-1 and Brn-3

et al. 2002

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Neochildia fusca is a member of the taxon Acoela, a group of flatworms that, according to some recent molecular phylogenetic analyses, are distinct from other flatworms and constitute a basal branch with a sister taxon relationship to the rest of the Bilateria. In this paper, we analyze early neural development in this species and report the sequence and expression of two Pit-Oct-Unc (POU) genes, NeocBrn-1 and NeocBrn-3. Homologs of these highly conserved genes play a role in neural fate determination in vertebrates, Drosophila and Caenorhabditis elegans. Acoels, including Neochildia, have a unique invariant pattern of early cleavage called duet spiral cleavage. In subsequent cell divisions descendants of the first three micromere duets form an outer layer of epidermal and neural progenitors surrounding the meso/endoderm progenitors, which are themselves descended from the macromere duet 4A, B and the micromere duet 4a, b. Organ formation begins at mid-embryonic stages with the epidermal primordium adopting a ciliated epithelial shape. Sub-epidermally, a bilaterally symmetric brain primordium can be seen at the anterior pole. Laterally and posteriorly, myoblasts form a thin layer underneath the epidermis. In late embryos and juveniles of Neochildia, the brain is formed by a 3-4 cell-diameter-thick layer of neurons forming a cortex surrounding a neuropile that is relatively free of cell bodies. A highly regular "orthogonal" array of muscle fibers penetrates the brain. We have isolated and partially sequenced homologs of the vertebrate Brn-1 and Brn-3 genes, which we call NeocBrn-1 and NeocBrn-3, respectively. These sequences contain and span portions of the POU-specific domain and a homeodomain, and are sequence similar to their respective homologs in vertebrates and Drosophila. RT-PCR reveals that NeocBrn-1 and NeocBrn-3 are expressed from mid-embryonic to adult stages. Whole-mount in situ hybridization shows expression of both genes in distinct subsets of nerve cells in juvenile and adult worms. NeocBrn-1 also appears in a subset of intra-epidermal gland cells. These observations are an initial step towards reconstructing the neural development of a key group of bilaterians, the Acoela. These flatworms, by virtue of their distinct morphology, development and phylogenetically basal placement, are likely to provide key insights into the interpretation of the evolution of metazoan neural architecture.

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Parental consanguinity increases congenital heart diseases in South India

Ramegowda

Ramachandra

2006

Annals of Human Biology

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Serum levels of IL-10, IL-17F and IL-33 in patients with asthma: a case–control study

Jahromi

Mahesh²,

Jayaraj³

et al. 2014

Journal of Asthma

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