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Stein, Gary S.,Zaidi, Sayyed K.,Stein, Janet L.,Lian, Jane B.,Van Wijnen, Andre J.,Montecino, Martin,Young, Daniel W.,Javed, Amjad,Pratap, Jitesh,Choi, Je-Yong,Ali, Syed A.,Pande, Sandhya,Hassan, Moha Wiley (Blackwell Publishing) 2009 Annals of the New York Academy of Sciences Vol.1155 No.1
<P>There is growing awareness that the fidelity of gene expression necessitates coordination of transcription factor metabolism and organization of genes and regulatory proteins within the three-dimensional context of nuclear architecture. The regulatory machinery that governs genetic and epigenetic control of gene expression is compartmentalized in nuclear microenvironments. Temporal and spatial parameters of regulatory complex organization and assembly are functionally linked to biological control and are compromised with the onset and progression of tumorigenesis. High throughput imaging of cells, tissues, and tumors, including live cell analysis, is expanding research's capabilities toward translating components of nuclear organization into novel strategies for cancer diagnosis and therapy.</P>
Stein, Gary S.,Zaidi, Sayyed K.,Stein, Janet L.,Lian, Jane B.,van Wijnen, Andre J.,Montecino, Martin,Young, Daniel W.,Javed, Amjad,Pratap, Jitesh,Choi, Je-Yong,Ali, Syed A.,Pande, Sandhya,Hassan, Moha Canadian Science Publishing 2009 Biochemistry and cell biology Vol.87 No.1
<P> Epigenetic control is required to maintain competency for the activation and suppression of genes during cell division. The association between regulatory proteins and target gene loci during mitosis is a parameter of the epigenetic control that sustains the transcriptional regulatory machinery that perpetuates gene-expression signatures in progeny cells. The mitotic retention of phenotypic regulatory factors with cell cycle, cell fate, and tissue-specific genes supports the coordinated control that governs the proliferation and differentiation of cell fate and lineage commitment. </P>
Copper removal from industrial wastewater: A comprehensive review
Sajeda A. Al-Saydeh,Muftah H. El-Naas,Syed J. Zaidi 한국공업화학회 2017 Journal of Industrial and Engineering Chemistry Vol.56 No.-
Copper is one of the most valuable and prevalent metals used in the industry. There are many techniques to treat different types of industrial wastewater that are contaminated with heavy metals such as copper. This article focuses on reviewing the most advanced wastewater treatment techniques, including adsorption, membrane filtration, cementation and electrodialysis. The review examines the differences among the treatment methods in terms of duration and overall efficiencies. The review outlines the current research in the area in terms of weaknesses and strengths, leading to future research prospective and pointing out gabs that need to be addressed in future research.