Merve Celik scite author profile

Merve Celik

3Publications

26Citation Statements Received

88Citation Statements Given

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155

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Koç University

Publications

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Asymmetry in Mechanosensitive Gene Expression during Aortic Arch Morphogenesis

Karakaya

Goktas

Celik

et al. 2018

Sci Rep

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Embryonic aortic arches (AA) are initially bilaterally paired, transitional vessels and failures in remodeling based on hemodynamic and growth-related adaptations cause a spectrum of congenital heart disease (CHD) anatomies. Identifying regulatory mechanisms and cross-talk between the genetic elements of these vessels are critical to understand the ethiology of CHD and refine predictive computational models. This study aims to screen expression profiles of fundamental biological pathways in AA at early stages of chick embryo morphogenesis and correlate them with our current understanding of growth and mechanical loading. Reverse transcription-quantitative PCR (RT-qPCR) was followed by correlation and novel peak expression analyses to compare the behaviour and activation period of the genes. Available protein networks were also integrated to investigate the interactions between molecules and highlight major hierarchies. Only wall shear stress (WSS) and growth-correlated expression patterns were investigated. Effect of WSS was seen directly on angiogenesis as well on structural and apoptosis-related genes. Our time-resolved network suggested that WSS-correlated genes coordinate the activity of critical growth factors. Moreover, differential gene expression of left and right AA might be an indicator of subsequent asymmetric morphogenesis. These findings may further our understanding of the complex processes of cardiac morphogenesis and errors resulting in CHD.

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Microstructure of early embryonic aortic arch and its reversibility following mechanically altered hemodynamic load release

Celik

Goktas

Karakaya

et al. 2020

American Journal of Physiology-Heart and Circulatory Physiology

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The present study undertakes comparative analyses of the mechanistic differences of the arterial matrix microstructure and dynamics in the three fundamental processes of control, conotruncal banded, and released conotruncal band in avian embryo. Among other findings, this study provides specific evidence on the restorative role of elastin during the early lumen growth process. During vascular development, a novel intermittent load-switching mechanism between elastin and collagen, triggered by a step increase in wall shear stress, governs the chronic vessel lumen cross-sectional area increase. Mimicking the fetal cardiovascular interventions currently performed in humans, the early release of the abnormal mechanical load rescues the arterial microstructure with time-lag.

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Spatiotemporal remodeling of embryonic aortic arch: stress distribution, microstructure, and vascular growth in silico

Lashkarinia

Çoban

Ermek

et al. 2020

Biomech Model Mechanobiol

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Merve Celik

Asymmetry in Mechanosensitive Gene Expression during Aortic Arch Morphogenesis

Microstructure of early embryonic aortic arch and its reversibility following mechanically altered hemodynamic load release

Spatiotemporal remodeling of embryonic aortic arch: stress distribution, microstructure, and vascular growth in silico

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