Publications by authors named "Lorna Cohen"
Background: Neurofibromin, coded by the tumor suppressor gene, is the main negative regulator of the RAS pathway and is frequently mutated in various cancers. Women with Neurofibromatosis Type I (NF1)-a tumor predisposition syndrome caused by a germline mutation-have an increased risk of developing aggressive breast cancer with poorer prognosis. The mechanism by which mutations lead to breast cancer tumorigenesis is not well understood.
View Article and Find Full Text PDFThe endoplasmic reticulum (ER) is a dynamic network of interconnected sheets and tubules that orchestrates the distribution of lipids, ions, and proteins throughout the cell. The impact of its complex, dynamic morphology on its function as an intracellular transport hub remains poorly understood. To elucidate the functional consequences of ER network structure and dynamics, we quantify how the heterogeneity of the peripheral ER in COS7 cells affects diffusive protein transport.
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- * Previous studies found that the differences in head shape between Nasonia vitripennis and Nasonia giraulti involve multiple genes, with some developmental defects in hybrids being linked to recessive alleles.
- * The research highlights the importance of the doublesex gene in head shape variation, identifies a recessive locus linked to head clefting, and tracks genetic changes in head morphology occurring after species divergence, paving the way for deeper genetic analysis.
Article Synopsis
- Researchers explored the genomic basis of wood-feeding in the Asian longhorned beetle, a major invasive species, through genome sequencing, gene expression studies, and enzyme analyses.
- The study found that this beetle has a unique set of enzymes that enables it to degrade plant cell walls and detoxify chemicals, contributing to its ability to feed on various woody plants.
- It was concluded that the expansion and specialization of certain genes, including those acquired from fungi and bacteria, play a crucial role in the evolutionary success of wood-feeding beetles and their ability to adapt to different plant species.
A fundamental question in biology is "how is growth differentially regulated during development to produce organs of particular sizes?" We used a new model system for the study of differential organ growth, the limbs of the opossum (Monodelphis domestica), to investigate the cellular and molecular basis of differential organ growth in mammals. Opossum forelimbs grow much faster than hindlimbs, making opossum limbs an exceptional system with which to study differential growth. We first used the great differences in opossum forelimb and hindlimb growth to identify cellular processes and molecular signals that underlie differential limb growth.
View Article and Find Full Text PDFThe animal head is a complex structure where numerous sensory, structural and alimentary structures are concentrated and integrated, and its ontogeny requires precise and delicate interactions among genes, cells, and tissues. Thus, it is perhaps unsurprising that craniofacial abnormalities are among the most common birth defects in people, or that these defects have a complex genetic basis involving interactions among multiple loci. Developmental processes that depend on such epistatic interactions become exponentially more difficult to study in diploid organisms as the number of genes involved increases.
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