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1. Bovid Interspecies Somatic Cell Nuclear Transfer with Ooplasm Transfer

   Interspecies somatic cell nuclear transfer (iSCNT) contributes to the preservation of endangered species, albeit nuclear–mitochondrial...

   L. Antonio González-Grajales, Gabriela F. Mastromonaco in Somatic Cell Nuclear Transfer Technology

   Protocol 2023
   

2. Horse Somatic Cell Nuclear Transfer Using Zona Pellucida-Enclosed and Zona-Free Oocytes

   Horse cloning by somatic cell nuclear transfer (SCNT) is an attractive scientific and commercial endeavor. Moreover, SCNT allows generating...

   Daniel Salamone, Marc Maserati in Somatic Cell Nuclear Transfer Technology

   Protocol 2023
   

3. Somatic Cell Nuclear Transfer in Rabbits

   Somatic cell nuclear transfer (SCNT) is a technology that enables differentiated somatic cells to acquire a totipotent state, thus making it of great...

   Pengxiang Qu, Wenbin Cao, Enqi Liu in Somatic Cell Nuclear Transfer Technology

   Protocol 2023
   

4. An Automated Strategy to Handle Antigenic Variability in Immunisation Protocols, Part I: Nanopore Sequencing of Infectious Agent Variants

   Infectious agents often challenge therapeutics, from antibiotics resistance to antigenic variability affecting inoculation measures. Over the last...

   Glaucia C. Pereira in Gene, Drug, and Tissue Engineering

   Protocol 2023
   

5. In Vitro Assay for the Assessment of Oxygen Depletion Triggers in Human Cell Lines, Associated with Improving Responses to Cancer Therapy

   Tumors are usually associated with oxygen-deficient regions (hypoxia) which results from reduced and disorganized intratumoral vasculature, increased...

   Kartikeya Tiwari, Ritesh Kumar, ... Prakash Saudagar in Gene, Drug, and Tissue Engineering

   Protocol 2023
   

6. Latest Trends in Nucleic Acids’ Engineering Techniques Applied to Precision Medicine

   Nucleic acids are paving the way for advanced therapeutics. Unveiling the genome enabled a better understanding of unique genotype–phenotype...

   Glaucia C. Pereira in Gene, Drug, and Tissue Engineering

   Protocol 2023
   

7. Simplified CRISPR-Mediated DNA Editing in Multicellular Eukaryotes

   The CRISPR-Cas9 system is becoming an imperative tool to edit the genome of various organisms. The gene-editing study by the CRISPR-Cas9 system has...

   Ritesh Kumar, Kartikeya Tiwari, Prakash Saudagar in Gene, Drug, and Tissue Engineering

   Protocol 2023
   

8. Cloning by SCNT: Integrating Technical and Biology-Driven Advances

   Somatic cell nuclear transfer (SCNT) into enucleated oocytes initiates nuclear reprogramming of lineage-committed cells to totipotency. Pioneer SCNT...

   Marcelo Tigre Moura in Somatic Cell Nuclear Transfer Technology

   Protocol 2023
   

9. An Automated Strategy to Handle Antigenic Variability in Immunisation Protocols, Part II: In Vitro Transcribed mRNA Vector Design for Inoculation Against Infectious Agent Variants

   A fully automated strategy to handle antigenic variability in immunisation protocols is here presented. The method comprises of (1) nanopore...

   Glaucia C. Pereira in Gene, Drug, and Tissue Engineering

   Protocol 2023
   

10. Cartilage Tissue Engineering: An Introduction

    Once damaged, cartilage has limited healing capability. This has led to a huge body of research that aims to repair or regenerate this important...

    Martin J. Stoddart, Elena Della Bella, Angela R. Armiento in Cartilage Tissue Engineering

    Protocol 2023
    

11. Articular Cartilage Imaging in the Context of the Superficial Chondrocyte Spatial Organization (SCSO) as a Surrogate Marker for Functional Pathology

    Articular cartilage imaging has undergone tremendous changes and nowadays enables functionally relevant quantitative information useful for detecting...

    Bodo Kurz, Thomas Lange, ... Bernd Rolauffs in Cartilage Tissue Engineering

    Protocol 2023
    

12. Cattle Cloning by Somatic Cell Nuclear Transfer

    Cloning by somatic cell Nuclear Transfer (SCNT) is a powerful technology capable of reprograming terminally differentiated cells to totipotency for...

    Juliano Rodrigues Sangalli, Rafael Vilar Sampaio, ... Flávio Vieira Meirelles in Somatic Cell Nuclear Transfer Technology

    Protocol 2023
    

13. Derivation of Bovine Primed Embryonic Stem Cells from Somatic Cell Nuclear Transfer Embryos

    Derivation of bovine embryonic stem cells from somatic cell nuclear transfer embryos enables the derivation of genetically matched pluripotent stem...

    Delia A. Soto, Micaela Navarro, Pablo J. Ross in Somatic Cell Nuclear Transfer Technology

    Protocol 2023
    

14. Somatic Cell Nuclear Transfer Using Freeze-Dried Protaminized Donor Nuclei

    Somatic cell nuclear transfer (SCNT) is the only nuclear reprogramming method that allows rewinding an adult nucleus into a totipotent state. As...

    Luca Palazzese, Marta Czernik, ... Pasqualino Loi in Somatic Cell Nuclear Transfer Technology

    Protocol 2023
    

15. Mitochondrial Inheritance Following Nuclear Transfer: From Cloned Animals to Patients with Mitochondrial Disease

    Mitochondria are indispensable power plants of eukaryotic cells that also act as a major biochemical hub. As such, mitochondrial dysfunction, which...

    Jörg P. Burgstaller, Marcos R. Chiaratti in Somatic Cell Nuclear Transfer Technology

    Protocol 2023
    

16. The Use of 99mTc-Labeled Stem Cells for Evaluation of Chronic Kidney Disease

    The labeling of stem cells with radionuclides allows in vivo monitoring of cell migration and homing. Here, we describe the labeling of mononuclear...

    Bianca Gutfilen, Sergio Augusto Lopes de Souza, Marcelo Marcos Morales in Gene, Drug, and Tissue Engineering

    Protocol 2023
    

17. A Brief Review of Plant Cell Transfection, Gene Transcript Expression, and Genotypic Integration for Enhancing Compound Production

    Plants possess a plethora of important secondary metabolites, which are unique sources of natural pigments, pharmaceutical compounds, food additives,...

    Munish Sharma, Sakshi Bhushan, ... Manoj K. Dhar in Gene, Drug, and Tissue Engineering

    Protocol 2023
    

18. Stem Cell-Derived Microfluidic Amniotic Sac Embryoid (μPASE)

    The microfluidic amniotic sac embryoid (μPASE) is a human pluripotent stem cell (hPSC)-derived multicellular human embryo-like structure with...

    Yi Zheng in Embryo Models In Vitro

    Protocol 2023
    

19. Inferring Gene Regulatory Networks and Predicting the Effect of Gene Perturbations via IQCELL

    IQCELL is a platform that infers Boolean gene regulatory networks from single-cell RNA sequencing data. Boolean networks can be simulated under...

    Tiam Heydari, Peter W. Zandstra in Embryo Models In Vitro

    Protocol 2023
    

20. Guinea Pig Preimplantation Embryos: Generation, Collection, and Immunofluorescence

    Studying various animal models is important for comparative biology and to better understand evolutionary development. Furthermore, when aiming to...

    Jesica Canizo, Savana Biondic, ... Sophie Petropoulos in Embryo Models In Vitro

    Protocol 2023