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1. Neural Tube Formation

   This chapter describes medaka development in the pre-phylotypic period, i.e., from the fertilized eggs to the embryos that have the neural tubes...

   Yuji Ishikawa, Naoyuki Yamamoto, Hanako Hagio in Brain Development of Medaka Fish

   Chapter 2022
   

2. In Vitro Tube Formation Assays in Matrigel

   Vasculature development is a combination of complex processes that require precise coordination of multiple cell types, through time and space, to...

   Ralph Francescone, Débora Barbosa Vendramini-Costa in Vasculogenic Mimicry

   Protocol 2022
   

3. Neurulation and Neural Tube Defects

   Neurulation has been extensively studied in amphibian, avian and mammalian embryos and occurs in four stages: formation of the neural plate, sha**...

   Hans J. ten Donkelaar, Andrew J. Copp, ... Kohei Shiota in Clinical Neuroembryology

   Chapter 2023
   

4. The microsporidian polar tube: origin, structure, composition, function, and application

   Microsporidia are a class of obligate intracellular parasitic unicellular eukaryotes that infect a variety of hosts, even including humans. Although...

   Yuqing Chen, Qing Lv, ... Zeyang Zhou in Parasites & Vectors

   Article Open access 30 August 2023
   

5. Ventriculo-Pial Patterning of Neural Tube

   This chapter looks at the neural tube at cellular level to address the concentric patterns in neural tube. Early neural tube is a pseudostratified...

   Yuji Ishikawa, Naoyuki Yamamoto, Hanako Hagio in Brain Development of Medaka Fish

   Chapter 2022
   

6. Left–Right Patterning of Neural Tube

   This chapter discusses the structural differences along the left–right axis of neural tube. Two types of left–right differences, the fixed and random...

   Yuji Ishikawa, Naoyuki Yamamoto, Hanako Hagio in Brain Development of Medaka Fish

   Chapter 2022
   

7. Simultaneous Four Supratentorial Lesions Predict Tube Dependency Due to an Impaired Anticipatory Phase of Ingestion

   This study aimed to identify the neuroanatomical predictors of oropharyngeal dysphagia and tube dependency in patients with supratentorial or...

   Takaaki Hattori, Naoko Mitani, ... Satoshi Orimo in Translational Stroke Research

   Article 30 May 2023
   

8. In Situ Hybridization to Characterize Neurulation and Midbrain–Hindbrain Boundary Formation in Zebrafish

   Whole-mount in situ hybridization is able to harness the inherent advantages of zebrafish as a model organism for developmental biology, particularly...

   Jarrad Fuller, Sebastian Dworkin in Neurobiology

   Protocol 2024
   

9. Mechanics of Microsporidian Polar Tube Firing

   As obligate intracellular parasites with reduced genomes, microsporidia must infect host cells in order to replicate and cause disease. They can...

   Pattana Jaroenlak, Mahrukh Usmani, ... Gira Bhabha in Microsporidia

   Chapter 2022
   

10. Evolutionary Aspects of Chamber Formation and Septation

    The formed hearts of vertebrates are widely different in anatomy and performance, yet their embryonic hearts are surprisingly similar. Developmental...

    Bjarke Jensen, Antoon F. M. Moorman in Congenital Heart Diseases: The Broken Heart

    Chapter 2024
    

11. Production of human spinal-cord organoids recapitulating neural-tube morphogenesis

    Human spinal-cord-like tissues induced from human pluripotent stem cells are typically insufficiently mature and do not mimic the morphological...

    Ju-Hyun Lee, Hyogeun Shin, ... Woong Sun in Nature Biomedical Engineering

    Article 28 March 2022
    

12. Identification and functional analysis of rare HECTD1 missense variants in human neural tube defects

    Neural tube defects (NTDs) are severe malformations of the central nervous system that arise from failure of neural tube closure. HECTD1 is an E3...

    Elias Oxman, Huili Li, ... Irene E. Zohn in Human Genetics

    Article Open access 07 March 2024
    

13. Inpp5e Regulated the Cilium-Related Genes Contributing to the Neural Tube Defects Under 5-Fluorouracil Exposure

    Primary cilia are crucial for neurogenesis, and cilium-related genes are involved in the closure of neural tubes. Inositol...

    **uwei Wang, Jialu Yu, ... Jianhua Wang in Molecular Neurobiology

    Article 29 January 2024
    

14. The Function and Structure of the Microsporidia Polar Tube

    Microsporidia are obligate intracellular pathogens that were initially identified about 160 years ago. Current phylogenetic analysis suggests that...

    Bing Han, Peter M. Takvorian, Louis M. Weiss in Microsporidia

    Chapter 2022
    

15. Progress in Modeling Neural Tube Development and Defects by Organoid Reconstruction

    It is clear that organoids are useful for studying the structure as well as the functions of organs and tissues; they are able to simulate...

    Peng Li, Yongchang Chen in Neuroscience Bulletin

    Article 26 June 2022
    

16. Assessment of Invadopodium Formation and Gelatin Degradation in Vitro

    Some cancer cells form highly regulated structures, termed invadopodia, which mediate local, enzymatic degradation of extracellular matrix and...

    Marguerite J. Clarke, Samantha Battagin, Marc G. Coppolino in Proteases and Cancer

    Protocol 2024
    

17. Development of Neural Circuits in Neural Tube

    This chapter describes the development of fiber tracts and behavior in the medaka embryos. The fiber system develops correlated with the organization...

    Yuji Ishikawa, Naoyuki Yamamoto, Hanako Hagio in Brain Development of Medaka Fish

    Chapter 2022
    

18. Genetic Susceptibility to Neural Tube Defect (NTD) and Hyperhomocysteinemia

    Increased level of homocysteine is typically caused by genetic defect in the enzyme involved in the homocysteine metabolism. Several genetic enzyme...

    Govind Prasad Dubey, V. N. Mishra, ... Rudra P. Ojha in Homocysteine Metabolism in Health and Disease

    Chapter 2022
    

19. Subdivisions of Neural Tube along the Rostrocaudal Axis: Neuromeric Models

    This chapter discusses the transverse subdivisions, which are positioned perpendicular to the longitudinal axis of the neural tube. The medaka neural...

    Yuji Ishikawa, Naoyuki Yamamoto, Hanako Hagio in Brain Development of Medaka Fish

    Chapter 2022
    

20. Characterizing neuroinflammation and identifying prenatal diagnostic markers for neural tube defects through integrated multi-omics analysis

    Background

    Neural Tube Defects (NTDs) are congenital malformations of the central nervous system resulting from the incomplete closure of the neural...

    Wenshuang Wang, Yanhong Ji, ... Hongxin Deng in Journal of Translational Medicine

    Article Open access 09 March 2024