Sania Khalid scite author profile

Summary The retina of lower vertebrates grows continuously by integrating new neurons generated from progenitors in the ciliary margin zone (CMZ). Whether the mammalian CMZ provides the neural retina with retinal cells is controversial. Live-imaging of embryonic retina expressing eGFP in the CMZ shows that cells migrate laterally from the CMZ to the neural retina where differentiated retinal ganglion cells (RGCs) reside. As Cyclin D2, a cell-cycle regulator, is enriched in ventral CMZ, we analyzed Cyclin D2−/− mice to test whether the CMZ is a source of retinal cells. Neurogenesis is diminished in Cyclin D2 mutants, leading to a reduction of RGCs in the ventral retina. In line with these findings, in the albino retina, the decreased production of ipsilateral RGCs is correlated with fewer Cyclin D2+ cells. Together, these results implicate the mammalian CMZ as a neurogenic site that produces RGCs and whose proper generation depends on Cyclin D2 activity.

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Risk management practices in Islamic banks of Pakistan

Khalid

Amjad²

2012

The Journal of Risk Finance

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PurposeThe purpose of this paper is to evaluate the degree to which Islamic banks in Pakistan use risk management practices (RMPs) and techniques in dealing with different types of risk.Design/methodology/approachA standardized questionnaire is used which covers six aspects: understanding risk and risk management (URM), risk assessment and analysis (RAA), risk identification (RI), risk monitoring (RM), credit risk analysis (CRA) and RMPs.FindingsThis study found that the Islamic banks are somewhat reasonably efficient in managing risk where URM, RM and CRM are the most influencing variables in RMPs.Research limitations/implicationsThe paper's findings are limited to the RMPs of Islamic banks in Pakistan.Originality/valueThis paper explores the RMPs of the Islamic banks in Pakistan. The results can be used as a valuable feedback for improvement of RMPs in the Islamic banks in Pakistan and will be of value to those people who are interested in the Islamic banking system.

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Spatiotemporal distribution of glia in and around the developing mouse optic tract

Lee

Sitko

Khalid

et al. 2018

J of Comparative Neurology

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In the developing mouse optic tract, retinal ganglion cell (RGC) axon position is organized by topography and laterality (i.e., eye-specific or ipsi- and contralateral segregation). Our lab previously showed that ipsilaterally projecting RGCs are segregated to the lateral aspect of the developing optic tract and found that ipsilateral axons self-fasciculate to a greater extent than contralaterally projecting RGC axons in vitro. However, the full complement of axon-intrinsic and -extrinsic factors mediating eye-specific segregation in the tract remain poorly understood. Glia, which are known to express several guidance cues in the visual system and regulate the navigation of ipsilateral and contralateral RGC axons at the optic chiasm, are natural candidates for contributing to eye-specific pre-target axon organization. Here, we investigate the spatiotemporal expression patterns of both putative astrocytes (Aldh1l1+ cells) and microglia (Iba1+ cells) in the embryonic and neonatal optic tract. We quantified the localization of ipsilateral RGC axons to the lateral two-thirds of the optic tract and analyzed glia position and distribution relative to eye-specific axon organization. While our results indicate that glial segregation patterns do not strictly align with eye-specific RGC axon segregation in the tract, we identify distinct spatiotemporal organization of both Aldh1l1+ cells and microglia in and around the developing optic tract. These findings inform future research into molecular mechanisms of glial involvement in RGC axon growth and organization in the developing retinogeniculate pathway.

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Sania Khalid

The Ciliary Margin Zone of the Mammalian Retina Generates Retinal Ganglion Cells

Risk management practices in Islamic banks of Pakistan

Spatiotemporal distribution of glia in and around the developing mouse optic tract

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