Jennifer Waters

Q: What Schools Are Affiliated With Jennifer Waters

Jennifer Waters is affiliated with the following schools: University of California, Berkeley, California Institute of Technology, Stanford University, University of California, San Francisco, Harvard University

Jennifer Waters's AcademicInfluence.com Rankings

Jennifer Waters

Chemistry

#5807

World Rank

#7046

Historical Rank

Chemical Engineering

#822

World Rank

#843

Historical Rank

Physical Chemistry

#941

World Rank

#1012

Historical Rank

chemistry Degrees

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Chemistry

Jennifer Waters's Degrees

PhD Chemistry University of California, Berkeley

Why Is Jennifer Waters Influential?

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According to Wikipedia, Jennifer Waters is an American scientist who is a Lecturer on Cell Biology, the Director of the Nikon Imaging Center, and the Director of the Cell Biology Microscopy Facility at Harvard Medical School. She is an imaging expert and educator whose efforts to educate life scientists about microscopy and to systemize the education of microscopists in microscopy facilities serve as a blueprint for similar efforts worldwide.

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Jennifer Waters's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Association of Spindle Assembly Checkpoint Component XMAD2 with Unattached Kinetochores (1996) (802)
Accuracy and precision in quantitative fluorescence microscopy (2009) (560)
Localization of Mad2 to Kinetochores Depends on Microtubule Attachment, Not Tension (1998) (526)
Vertebrate Shugoshin Links Sister Centromere Cohesion and Kinetochore Microtubule Stability in Mitosis (2004) (330)
Phototoxicity in live fluorescence microscopy, and how to avoid it (2017) (228)
The kinetochore microtubule minus-end disassembly associated with poleward flux produces a force that can do work. (1996) (199)
Oscillating mitotic newt lung cell kinetochores are, on average, under tension and rarely push. (1996) (160)
Checkpoint signals in grasshopper meiosis are sensitive to microtubule attachment, but tension is still essential. (2001) (130)
Evaluating performance in three-dimensional fluorescence microscopy (2007) (122)
The force-producing mechanism for centrosome separation during spindle formation in vertebrates is intrinsic to each aster (1993) (118)
Pathways of spindle assembly. (1997) (104)
Navigating challenges in the application of superresolution microscopy (2017) (75)
Rapid image deconvolution and multiview fusion for optical microscopy (2020) (73)
Direction of actin flow dictates integrin LFA-1 orientation during leukocyte migration (2017) (71)
Mad2 binding by phosphorylated kinetochores links error detection and checkpoint action in mitosis (1999) (68)
Polo-like kinase-dependent phosphorylation of the synaptonemal complex protein SYP-4 regulates double-strand break formation through a negative feedback loop. (2017) (63)
A high-resolution multimode digital microscope system. (1998) (62)
Designing a rigorous microscopy experiment: Validating methods and avoiding bias (2019) (53)
Live-cell fluorescence imaging. (2007) (51)
The thrombin receptor in human platelets is coupled to a GTP binding protein of the Gα q family (1995) (49)
Chapter 10 A High-Resolution Multimode Digital Microscope System (1998) (36)
Assessing camera performance for quantitative microscopy. (2014) (33)
Concepts in quantitative fluorescence microscopy. (2014) (30)
Interpreting Fluorescence Microscopy Images and Measurements (2008) (23)
Live-cell fluorescence imaging. (2013) (22)
Quantitative imaging in cell biology (2014) (22)
FLIRT: Fast Local InfraRed Thermogenetics for subcellular control of protein function (2018) (17)
LEGEND-1000 Preconceptual Design Report (2021) (16)
CCD cameras for fluorescence imaging of living cells. (2011) (16)
Cytoskeleton: A catastrophic kinesin (1996) (14)
A practical guide to microscope care and maintenance. (2014) (13)
Accelerating iterative deconvolution and multiview fusion by orders of magnitude (2019) (12)
DeadNet: Identifying Phototoxicity from Label-free Microscopy Images of Cells using Deep ConvNets (2017) (8)
Chromosomes take an active role in spindle assembly. (1995) (7)
A Novel Paradigm for Expert Core Facility Staff Training. (2020) (7)
Quantitative imaging in cell biology. Preface. (2014) (5)
A high-resolution multimode digital microscope system. (2007) (4)
A High Resolution Multimode Digital Imaging System for Fluorescence Studies of Mitosis (1996) (4)
An Introduction to Electronic Image Acquisition during Light Microscopic Observation of Biological Specimens (2006) (2)
A high-resolution multimode digital microscope system. (2013) (1)
Direction of actin flow dictates integrin LFA-1 orientation during leukocyte migration (2017) (1)
Imaging dendritic calcium transients in pyramidal neurones (2005) (0)
Rapid image deconvolution and multiview fusion for optical microscopy (2020) (0)
A high-resolution multimode digital microscope system. (2003) (0)
FLIRT: fast local infrared thermogenetics for subcellular control of protein function (2018) (0)
Video-light microscopic analyses of centrosome separation in vivo during mitosis in vertebrate cells (1993) (0)
Choosing a Fluorescence Microscopy Imaging Modality for Live Quantitative Experiments (2014) (0)

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Other Resources About Jennifer Waters

en.wikipedia.org

What Schools Are Affiliated With Jennifer Waters?

Jennifer Waters is affiliated with the following schools:

Jennifer Waters's Academic­Influence.com Rankings

Jennifer Waters's Degrees

Why Is Jennifer Waters Influential?

Jennifer Waters's Published Works

Published Works

Other Resources About Jennifer Waters

What Schools Are Affiliated With Jennifer Waters?

Jennifer Waters's AcademicInfluence.com Rankings