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1. METTL3-dependent m⁶A modification of PSEN1 mRNA regulates craniofacial development through the Wnt/β-catenin signaling pathway

   Craniofacial malformations, often associated with syndromes, are prevalent birth defects. Emerging evidence underscores the importance of m ⁶ A...

   Lan Ma, ** Zhou, ... Yongchu Pan in Cell Death & Disease

   Article Open access 20 March 2024
   

2. Craniofacial Development Methods and Protocols

   This volume explores scientific methodologies currently employed to integrate observational developmental biology, tissue explant and cell-based...

   Sebastian Dworkin in Methods in Molecular Biology

   Book 2022
   

3. Morphometric analysis of the size-adjusted linear dimensions of the skull landmarks revealed craniofacial dysmorphology in Mid1-cKO mice

   Background

   The early craniofacial development is a highly coordinated process involving neural crest cell migration, proliferation, epithelial...

   Yaohui Liang, Chao Song, ... Yi Zou in BMC Genomics

   Article Open access 09 February 2023
   

4. Substrate type induces plastic responses in the craniofacial morphology of a winnowing cichlid

   Understanding how local populations respond to specific changes in the environment can help us better predict how populations respond to such change....

   Michelle C. Gilbert, Sofia N. Piggott, R. Craig Albertson in Hydrobiologia

   Article Open access 18 November 2022
   

5. Scaffolds for Use in Craniofacial Bone Regeneration

   Tissue-engineered scaffolds have been identified as appropriate templates for bone regeneration, especially complex geometries seen in craniofacial...

   Katherine R. Hixon, Christopher T. Eberlin, ... Scott A. Sell in Craniofacial Development

   Protocol 2022
   

6. One Genus or Two? Evaluating Whether Gracile and Robust Capuchin Monkeys are Validly Classified as Separate Genera Based on Craniofacial Shape

   Assessments of whether closely related species should be classified into more than one genus have been a longstanding source of controversy in...

   Katharine L. Balolia, Alexandra Wulff in International Journal of Primatology

   Article Open access 22 July 2022
   

7. A novel technique for aging male African elephants (Loxodonta africana) using craniofacial photogrammetry and geometric morphometrics

   Shoulder height, hind foot length, and photogrammetric craniofacial measurements were collected from male African elephants ( Loxodonta africana ) in...

   Caitlin E. O’Connell-Rodwell, Patrick T. Freeman, ... Timothy C. Rodwell in Mammalian Biology

   Article 31 May 2022
   

8. Adipose-derived stem cell spheroid-laden microbial transglutaminase cross-linked gelatin hydrogel for treating diabetic periodontal wounds and craniofacial defects

   Background

   Diabetes mellitus deteriorates the destruction and impairs the healing of periodontal wounds and craniofacial defects. This study is to...

   Che-Chang Tu, Nai-Chen Cheng, ... Po-Chun Chang in Stem Cell Research & Therapy

   Article Open access 03 February 2023
   

9. The genomic landscape of mammal domestication might be orchestrated by selected transcription factors regulating brain and craniofacial development

   Domestication transforms once wild animals into tamed animals that can be then exploited by humans. The process entails modifications in the body,...

   Antonio Benítez-Burraco, Juan Uriagereka, Serge Nataf in Development Genes and Evolution

   Article Open access 08 August 2023
   

10. Expression of Cre recombinase in chondrocytes causes abnormal craniofacial and skeletal development

    The cranial base synchondroses are growth centers that drive cranial and upper facial growth. The intersphenoid synchondrosis (ISS) and the...

    Shuqun Qi, Yating Wang, ... Fei Liu in Transgenic Research

    Article 08 May 2022
    

11. Craniofacial Phenomics: Three-Dimensional Assessment of the Size and Shape of Cranial and Dentofacial Structures

    Craniofacial phenomics has opened up numerous opportunities to correlate genetic and epigenetic factors to craniofacial phenotypes in order to...

    Mustafa Mian, Jenny Tan, ... Sarbin Ranjitkar in Craniofacial Development

    Protocol 2022
    

12. Histological Techniques for Sectioning Bones of the Vertebrate Craniofacial Skeleton

    Histochemical analysis is an indispensable technique in the field of biology used routinely to characterize pathologies of interest throughout the...

    Daniela M. Roth, Lakshmi Puttagunta, Daniel Graf in Craniofacial Development

    Protocol 2022
    

13. Genetic map** of craniofacial traits in the Mexican tetra reveals loci associated with bite differences between cave and surface fish

    Background

    The Mexican tetra, Astyanax mexicanus, includes interfertile surface-dwelling and cave-dwelling morphs, enabling powerful studies aimed at...

    Amanda K. Powers, Carole Hyacinthe, ... Clifford J. Tabin in BMC Ecology and Evolution

    Article Open access 25 August 2023
    

14. Elucidation of Gene Expression Patterns in the Craniofacial Tissues of Mouse Embryos by Wholemount In Situ Hybridization

    Analysis of animal models allows a deeper understanding of craniofacial development in health and diseases of humans. Wholemount in situ...

    Joshua B. Studdert, Heidi Bildsoe, ... Patrick P. L. Tam in Craniofacial Development

    Protocol 2022
    

15. Visualization of the Cartilage and Bone Elements in the Craniofacial Structures by Alcian Blue and Alizarin Red Staining

    Craniofacial morphogenesis is underpinned by orchestrated growth and form-sha** activity of skeletal and soft tissues in the head and face....

    Joshua B. Studdert, Heidi Bildsoe, ... Patrick P. L. Tam in Craniofacial Development

    Protocol 2022
    

16. Exosomes derived from stem cells from apical papilla promote craniofacial soft tissue regeneration by enhancing Cdc42-mediated vascularization

    Background

    Reconstruction of complex critical-size defects (CSD) in the craniofacial region is a major challenge, and soft tissue regeneration is...

    Yao Liu, Xueying Zhuang, ... Xu Chen in Stem Cell Research & Therapy

    Article Open access 22 January 2021
    

17. Differences among families in craniofacial shape at early life-stages of Arctic charr (Salvelinus alpinus)

    Background

    Organismal fitness can be determined at early life-stages, but phenotypic variation at early life-stages is rarely considered in studies on...

    Samantha V. Beck, Katja Räsänen, ... Bjarni K. Kristjánsson in BMC Developmental Biology

    Article Open access 26 October 2020
    

18. Wholemount In-Situ Hybridization (WISH) in Zebrafish Embryos to Analyze Craniofacial Development

    Wholemount in-situ hybridization in zebrafish is a powerful technique for visualizing spatiotemporal gene expression during development. Here we...

    Nishanthi Mathiyalagan, Sebastian Dworkin in Craniofacial Development

    Protocol 2022
    

19. Using Caenorhabditis elegans as a Model for Mechanistic Insights of Craniofacial Development

    Caenorhabditis elegans has served as a powerful model for understanding the molecular and cell biology of clinically important human proteins due to...

    Michael Gruss, Ann K. Corsi in Craniofacial Development

    Protocol 2022
    

20. Human levator veli palatini muscle: a novel source of mesenchymal stromal cells for use in the rehabilitation of patients with congenital craniofacial malformations

    Background

    Bone reconstruction in congenital craniofacial differences, which affect about 2–3% of newborns, has long been the focus of intensive...

    Daniela Franco Bueno, Gerson Shigueru Kabayashi, ... Maria Rita Passos-Bueno in Stem Cell Research & Therapy

    Article Open access 25 November 2020