YWHAG gene

Known as: YWHAG, 14-3-3 gamma, 14-3-3-GAMMA

National Institutes of Health

Papers overview

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2018

MicroRNA-182 promoted esophageal squamous cell carcinoma cell growth and metastasis via targeting YWHAG.

Q. BaiJun YuYongshun LiJilong MaY. Gou
Journal of B.U.ON. : official journal of the…
2018
Corpus ID: 58565837

PURPOSE To study the functioning mode of miR-182 on esophageal squamous cell carcinoma (ESCC) cell growth and metastasis and…

2017

Methods of RNA preparation affect mRNA abundance quantification of reference genes in pig maturing oocytes

Y-K WangX. LiZhi-qiang SongC-X Yang
Reproduction in domestic animals = Zuchthygiene
2017
Corpus ID: 206290542

To ensure accurate normalization and quantification of target RNA transcripts using reverse transcription quantitative polymerase…

2014

Centrosome and Mitotic Spindle Organization in Human Cells

S. Lawo
2014
Corpus ID: 90089847

.................................................................................................................................. ii ACKNOWLEDGMENTS ........................................................................................................... iv LIST OF TABLES ..................................................................................................................... viii LIST OF FIGURES ..................................................................................................................... ix LIST OF APPENDICES .............................................................................................................. xi ABBREVIATIONS ..................................................................................................................... xii PROTEIN NAMES .................................................................................................................... xiv CHAPTER I: INTRODUCTION ............................................................................................... 1 1.1. The cell cycle ................................................................................................................................. 2 1.1.1. The basic principles of cell cycle regulation in eukaryotes .................................................... 2 1.1.2. The cell cycle and the centrosome cycle are intricately linked ............................................... 4 1.1.3. A network of kinases and phosphatases orchestrates mitotic processes ................................. 5 1.2. The centrosome ........................................................................................................................... 12 1.2.1. Centrosome functions and structure ...................................................................................... 12 1.2.2. The centrosome proteome ..................................................................................................... 13 1.2.3. Centrioles .............................................................................................................................. 14 1.2.3.1. Centriole architecture .................................................................................................................... 14 1.2.3.2. Centriole functions ........................................................................................................................ 15 1.2.4. The pericentriolar material (PCM) ........................................................................................ 16 1.2.5. The centrosome cycle ............................................................................................................ 25 1.2.5.1. Centriole duplication ..................................................................................................................... 25 1.2.5.2. Centrosome maturation and separation ......................................................................................... 28 1.3. The mitotic spindle ..................................................................................................................... 32 1.3.1. Microtubules are the basic elements of the mitotic spindle .................................................. 32 1.3.1.1. Astral microtubules regulate spindle positioning .......................................................................... 33 1.3.1.2. Interpolar microtubules fulfill important roles inside the mitotic spindle .................................... 34 1.3.1.3. Kinetochore microtubules are essential for chromosome segregation .......................................... 35 1.3.2. Microtubule nucleation pathways during mitotic spindle assembly ..................................... 37 1.3.2.1. RanGTP-dependent microtubule nucleation around chromatin .................................................... 38 1.3.2.2. CPC-dependent microtubule nucleation at kinetochores .............................................................. 39 1.3.2.3. Microtubule-dependent microtubule amplification within the spindle ......................................... 40 1.3.3. The role of mitotic motor and nonmotor proteins during spindle assembly ......................... 42 1.3.3.1. Mitotic motor proteins ................................................................................................................... 42 1.3.3.2. Nonmotor spindle proteins ............................................................................................................ 45 1.4. Spindle defects and human disease ........................................................................................... 49 1.4.1. Defects during spindle assembly can result in chromosome instability and aneuploidy ...... 49 1.4.2. Centrosomes are critical for asymmetric cell divisions during neurogenesis ....................... 52 1.5. Summary and rationale of my graduate work ........................................................................ 54 1.6. Figures ......................................................................................................................................... 56