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Hedgehog Signaling Pathway02:33

Hedgehog Signaling Pathway

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The Hedgehog gene (Hh) was first discovered due to its control of the growth of disorganized, hair-like bristles phenotype in Drosophila, much like hedgehog spines. Hh plays a crucial role in the development of organs and the maintenance of homeostasis in both invertebrates and vertebrates. However, while Drosophila has only one Hh protein, mammals have multiple functional Hedgehog proteins - Sonic (Shh), Desert (Dhh), and Indian Hedgehog (Ihh). All of these homologous proteins have adapted to...
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Hedgehog Signaling Pathway02:33

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General Transcription Factors01:30

General Transcription Factors

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Tissue-specific transcription factors contribute to diverse cellular functions in mammals. For example, the gene for beta globin, a major component of hemoglobin, is present in all cells of the body. However, it is only expressed in red blood cells because the transcription factors that can bind to the promoter sequences of the beta globin gene are only expressed in these cells. Tissue-specific transcription factors also ensure that mutations in these factors may impair only the function of...
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Notch Signaling Pathway03:14

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The Notch signaling pathway is a major intracellular signaling pathway that is highly conserved over a broad spectrum of metazoan species. It stands unique from other intracellular signaling mechanisms in animals because notch protein itself acts as the receptor as well as the primary signaling molecule.
The Notch gene came into the limelight in 1914 after the discovery that its mutation in Drosophila melanogaster leads to a serrated (or "notched") wing margin phenotype. It was not...
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Regulation of Angiogenesis and Blood Supply01:24

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Rapidly dividing tumors, embryos, and wounded tissues require more oxygen than usual, lowering the oxygen concentration in the blood. At low oxygen or hypoxic conditions, an oxygen-sensitive transcription factor called the hypoxia-inducible factor 1 or HIF1 is activated. HIF1 is a dimeric protein of alpha (ɑ) and beta (β) subunits.  Under optimal oxygen conditions, HIF1β is present in the nucleus while HIF1ɑ remains in the cytosol. HIF1ɑ is hydroxylated by prolyl...
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Related Experiment Video

Updated: May 3, 2026

HOX Loci Focused CRISPR/sgRNA Library Screening Identifying Critical CTCF Boundaries
10:10

HOX Loci Focused CRISPR/sgRNA Library Screening Identifying Critical CTCF Boundaries

Published on: March 31, 2019

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Hox targets and cellular functions.

Ernesto Sánchez-Herrero1

  • 1Centro de Biología Molecular Severo Ochoa (CSIC-UAM), Nicolás Cabrera 1, Universidad Autónoma de Madrid, Cantoblanco, 28049 Madrid, Spain.

Scientifica
|February 4, 2014
PubMed
Summary
This summary is machine-generated.

Hox genes establish body structures by regulating cellular functions and coordinating cell behavior. This review explores how these genes develop new organs, using Drosophila melanogaster as a model.

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Area of Science:

  • Developmental Biology
  • Genetics
  • Evolutionary Biology

Background:

  • Hox genes are crucial for specifying anterior-posterior axis patterning in bilaterians.
  • They can modify existing structures or create novel organs through differential gene input.
  • Hox gene function involves regulating cellular behaviors and implementing specific cellular functions.

Purpose of the Study:

  • To review recent genome-wide data alongside existing genetic and developmental information on Hox gene regulation.
  • To describe examples of Hox gene regulation of diverse cellular functions.
  • To discuss the genetic cascade organization underlying the development of new organs.

Main Methods:

  • Review of existing genetic and developmental data.
  • Integration of new genome-wide techniques.
  • Analysis of Hox gene function in Drosophila melanogaster.

Main Results:

  • Hox genes regulate cellular functions through genetic cascades and direct target regulation.
  • Examples illustrate how Hox genes orchestrate the development of new, non-homologous organs.
  • The study highlights the complexity of genetic organization in organ development.

Conclusions:

  • Hox genes play a fundamental role in both modifying homologous structures and generating novel ones.
  • Understanding Hox gene regulatory networks is key to deciphering organ development.
  • Drosophila melanogaster serves as a powerful model for investigating Hox gene functions in organogenesis.