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RUNX Proteins in Development and Cancer

Overview of attention for book
Cover of 'RUNX Proteins in Development and Cancer'

Table of Contents

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    Book Overview
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    Chapter 1 RUNX in Invertebrates
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    Chapter 2 Structure and Biophysics of CBFβ/RUNX and Its Translocation Products
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    Chapter 3 Covalent Modifications of RUNX Proteins: Structure Affects Function
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    Chapter 4 The Role of Runx1 in Embryonic Blood Cell Formation
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    Chapter 5 Runx1 Structure and Function in Blood Cell Development
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    Chapter 6 Roles of Runx2 in Skeletal Development
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    Chapter 7 Mitotic Gene Bookmarking: An Epigenetic Mechanism for Coordination of Lineage Commitment, Cell Identity and Cell Growth
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    Chapter 8 Roles of Runx Genes in Nervous System Development
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    Chapter 9 Runx Family Genes in Tissue Stem Cell Dynamics
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    Chapter 10 Roles of the RUNX1 Enhancer in Normal Hematopoiesis and Leukemogenesis
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    Chapter 11 RUNX1-ETO Leukemia
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    Chapter 12 Clinical Relevance of RUNX1 and CBFB Alterations in Acute Myeloid Leukemia and Other Hematological Disorders
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    Chapter 13 Mechanism of ETV6-RUNX1 Leukemia
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    Chapter 14 ETV6-RUNX1 + Acute Lymphoblastic Leukaemia in Identical Twins
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    Chapter 15 Molecular Basis and Targeted Inhibition of CBFβ-SMMHC Acute Myeloid Leukemia
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    Chapter 16 The RUNX Genes as Conditional Oncogenes: Insights from Retroviral Targeting and Mouse Models
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    Chapter 17 RUNX1 and CBFβ Mutations and Activities of Their Wild-Type Alleles in AML
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    Chapter 18 Roles of RUNX in B Cell Immortalisation
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    Chapter 19 Roles of RUNX in Solid Tumors
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    Chapter 20 RUNX3 and p53: How Two Tumor Suppressors Cooperate Against Oncogenic Ras?
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    Chapter 21 Runx3 and Cell Fate Decisions in Pancreas Cancer
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    Chapter 22 Runx Genes in Breast Cancer and the Mammary Lineage
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    Chapter 23 Runx3 in Immunity, Inflammation and Cancer
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    Chapter 24 Roles of RUNX Complexes in Immune Cell Development
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    Chapter 25 CBFß and HIV Infection
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    Chapter 26 Roles of RUNX in Hippo Pathway Signaling
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    Chapter 27 Roles of RUNX in Hypoxia-Induced Responses and Angiogenesis
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    Chapter 28 The Emerging Roles of RUNX Transcription Factors in Epithelial-Mesenchymal Transition
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    Chapter 29 A Regulatory Role for RUNX1, RUNX3 in the Maintenance of Genomic Integrity
Attention for Chapter 6: Roles of Runx2 in Skeletal Development
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Chapter title
Roles of Runx2 in Skeletal Development
Chapter number 6
Book title
RUNX Proteins in Development and Cancer
Published in
Advances in experimental medicine and biology, March 2017
DOI 10.1007/978-981-10-3233-2_6
Pubmed ID
28299652
Book ISBNs
978-9-81-103231-8, 978-9-81-103233-2
Authors

Toshihisa Komori

Editors

Yoram Groner, Yoshiaki Ito, Paul Liu, James C. Neil, Nancy A. Speck, Andre van Wijnen

Abstract

Runx2 is the most upstream transcription factor essential for osteoblast differentiation. It regulates the expression of Sp7, the protein of which is a crucial transcription factor for osteoblast differentiation, as well as that of bone matrix genes including Spp1, Ibsp, and Bglap2. Runx2 is also required for chondrocyte maturation, and Runx3 has a redundant function with Runx2 in chondrocyte maturation. Runx2 regulates the expression of Col10a1, Spp1, Ibsp, and Mmp13 in chondrocytes. It also inhibits chondrocytes from acquiring the phenotypes of permanent cartilage chondrocytes. It regulates chondrocyte proliferation through the regulation of Ihh expression. Runx2 enhances osteoclastogenesis by regulating Rankl. Cbfb, which is a co-transcription factor for Runx family proteins, plays an important role in skeletal development by stabilizing Runx family proteins. In Cbfb isoforms, Cbfb1 is more potent than Cbfb2 in Runx2-dependent transcriptional regulation; however, the expression level of Cbfb2 is three-fold higher than that of Cbfb1, demonstrating the requirement of Cbfb2 in skeletal development. The expression of Runx2 in osteoblasts is regulated by a 343-bp enhancer located upstream of the P1 promoter. This enhancer is activated by an enhanceosome composed of Dlx5/6, Mef2, Tcf7, Ctnnb1, Sox5/6, Smad1, and Sp7. Thus, Runx2 is a multifunctional transcription factor that is essential for skeletal development, and Cbfb regulates skeletal development by modulating the stability and transcriptional activity of Runx family proteins.

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X Demographics

The data shown below were collected from the profiles of 2 X users who shared this research output. Click here to find out more about how the information was compiled.
 Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 102 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 102 100%

Demographic breakdown

Readers by professional status Count As %
Student > Master 20 20%
Student > Ph. D. Student 18 18%
Researcher 6 6%
Student > Bachelor 5 5%
Student > Doctoral Student 5 5%
Other 12 12%
Unknown 36 35%
Readers by discipline Count As %
Biochemistry, Genetics and Molecular Biology 21 21%
Medicine and Dentistry 18 18%
Agricultural and Biological Sciences 11 11%
Materials Science 3 3%
Chemical Engineering 1 <1%
Other 4 4%
Unknown 44 43%
Attention Score in Context

Attention Score in Context

This research output has an Altmetric Attention Score of 1. This is our high-level measure of the quality and quantity of online attention that it has received. This Attention Score, as well as the ranking and number of research outputs shown below, was calculated when the research output was last mentioned on 11 April 2020.
All research outputs
#15,450,375
of 22,959,818 outputs
Outputs from Advances in experimental medicine and biology
#2,513
of 4,957 outputs
Outputs of similar age
#194,694
of 308,429 outputs
Outputs of similar age from Advances in experimental medicine and biology
#31
of 78 outputs
Altmetric has tracked 22,959,818 research outputs across all sources so far. This one is in the 22nd percentile – i.e., 22% of other outputs scored the same or lower than it.
So far Altmetric has tracked 4,957 research outputs from this source. They typically receive a little more attention than average, with a mean Attention Score of 6.1. This one is in the 37th percentile – i.e., 37% of its peers scored the same or lower than it.
Older research outputs will score higher simply because they've had more time to accumulate mentions. To account for age we can compare this Altmetric Attention Score to the 308,429 tracked outputs that were published within six weeks on either side of this one in any source. This one is in the 28th percentile – i.e., 28% of its contemporaries scored the same or lower than it.
We're also able to compare this research output to 78 others from the same source and published within six weeks on either side of this one. This one is in the 43rd percentile – i.e., 43% of its contemporaries scored the same or lower than it.

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