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Consider water flowing from a nozzle to a turbine vane. As the water hits the turbine vane, it exerts a force that causes it to move along the flow of direction. Force is an impact that changes an object's motion, shape, or orientation. Forces can be caused by physical contact, such as a push or pull, or through non-contact interactions, such as magnetic or gravitational forces. Force is a vector quantity with both magnitude and direction, and is measured in newtons (N) in the SI unit...
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Updated: Feb 18, 2026

Micro-scale Engineering for Cell Biology
04:42

Micro-scale Engineering for Cell Biology

Published on: October 1, 2007

5.3K

Introduction.

Jason G Knott1, Keith E Latham2

  • 1Department of Animal Science, Michigan State University, 1230 Anthony Hall, East Lansing, MI, USA. knottj@msu.edu.

Advances in Anatomy, Embryology, and Cell Biology
|November 28, 2017
PubMed
Summary
This summary is machine-generated.

This review explores chromatin regulation in early mammalian embryonic development, focusing on how molecular processes guide cell fate decisions and lineage formation during preimplantation stages.

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Last Updated: Feb 18, 2026

Micro-scale Engineering for Cell Biology
04:42

Micro-scale Engineering for Cell Biology

Published on: October 1, 2007

5.3K

Area of Science:

  • Developmental Biology
  • Epigenetics
  • Mammalian Embryogenesis

Background:

  • Early embryonic development involves critical cell-fate decisions.
  • Lineage specification in mammals occurs during preimplantation stages.
  • Chromatin regulation plays a pivotal role in these early events.

Purpose of the Study:

  • To provide perspectives on molecular and cellular processes in mammalian preimplantation embryo development.
  • To highlight the role of chromatin in mediating lineage formation.
  • To synthesize current understanding of early cell-fate decisions.

Main Methods:

  • Review of current literature and expert perspectives.
  • Analysis of molecular and cellular mechanisms.
  • Focus on chromatin structure modulation and gene expression programs.

Main Results:

  • The first cell-fate decision forms the inner cell mass (ICM) and trophectoderm (TE).
  • The second cell-fate choice differentiates ICM into primitive endoderm (PE) and epiblast.
  • Complex, spatiotemporal regulation of chromatin, polarity, and gene expression drives these lineages.

Conclusions:

  • Chromatin regulation is fundamental to establishing distinct cell lineages in early mammalian embryos.
  • Understanding these processes is crucial for subsequent developmental events like implantation and gastrulation.
  • Spatiotemporal control of epigenetic mechanisms guides early embryonic patterning.