Best molecular technologist certifications

1. Statistical Molecular Thermodynamics

This introductory physical chemistry course examines the connections between molecular properties and the behavior of macroscopic chemical systems...

2. CertNexus Certified Ethical Emerging Technologist

The Certified Ethical Emerging Technologist (CEET) industry validated certification helps professionals differentiate themselves from other job candidates by demonstrating their ability to ethically navigate data driven emerging technologies such as AI, Machine Learning and Data Science.\n\nOrganizations and governments are seeking out ethics professionals to minimize risk and guide their decision-making about the design of inclusive, responsible, and trusted technology. An algorithm not...

3. Learn Molecular Dynamics from Scratch

4.5

(353)

Introduction to experimental approach of molecular dynamics using GROMACS...

4. Learn Molecular Docking From The Scratch

4.2

(613)

Kick start for molecular docking using Auto Dock...

5. Introduction to Molecular Spectroscopy

The course introduces the three key spectroscopic methods used by chemists and biochemists to analyse the molecular and electronic structure of atoms and molecules. These are UV/Visible , Infra-red (IR) and Nuclear Magnetic Resonance (NMR) spectroscopies. The content is presented using short focussed and interactive screencast presentations accompanied by formative quizzes to probe understanding of the key concepts presented. Numerous exercises are provided to facilitate mastery of each topic...

6. Infectious Disease Modelling

Mathematical modelling is increasingly being used to support public health decision-making in the control of infectious diseases. This specialisation aims to introduce some fundamental concepts of mathematical modelling with all modelling conducted in the programming language R - a widely used application today.\n\nThe specialisation will suit you if you have a basic working knowledge of R, but would also like to learn the necessary basic coding skills to write simple mathematical models in...

7. General Biology I: Foundations of Biology

4.5

(390)

An essential course in Biology for students of all ages...

8. Cancer Biology 101

4.4

(705)

Risk factors, how cancer grows, and how to treat it...

9. Reverse and complement nucleic acid sequences (DNA, RNA) using Python

In this 1-hour long project-based course, you will learn the basic building blocks in the Python language and how to Develop a Python program that constructs reverse, complement, and reverse-complement nucleic acid sequences (DNA, RNA). Also, you will make your code read a file that has a long DNA sequence and deal with one of the complete genomes for the novel coronavirus...

10. Reverse and complement nucleic acid sequences (DNA, RNA) using R

In this 1-hour long project-based course, you will learn the basic building blocks in the R language and how to Develop an R program that constructs reverse, complement, and reverse-complement nucleic acid sequences (DNA, RNA). Also, you will make your code read a file that has a long DNA sequence and deal with one of the complete genomes for the novel coronavirus...

11. Cisco Troubleshooting Labs For CCNA, CCNP, and CCIE Students

4.9

(496)

TSHOOT Labs in Routing, Switching, BGP, IPv6, IP Services, MPLS, and Security for CCNA, CCNP, and CCIE Students...

12. Bioinformatics; Learn Docking & Mol Dynamics Simulation

4.4

(535)

Best Bioinformatics Course To Learn Advance Bioinformatics Techniques Like Docking & Molecular Dynamics Simulations...

13. Experimental Methods in Systems Biology

Learn about the technologies underlying experimentation used in systems biology, with particular focus on RNA sequencing, mass spec-based proteomics, flow/mass cytometry and live-cell imaging. A key driver of the systems biology field is the technology allowing us to delve deeper and wider into how cells respond to experimental perturbations. This in turns allows us to build more detailed quantitative models of cellular function, which can give important insight into applications ranging from...

14. Introduction to the Biology of Cancer

Over 500,000 people in the United States and over 8 million people worldwide are dying every year from cancer. As people live longer, the incidence of cancer is rising worldwide and the disease is expected to strike over 20 million people annually by 2030. This open course is designed for people who would like to develop an understanding of cancer and how it is prevented, diagnosed, and treated. The course introduces the molecular biology of cancer (oncogenes and tumor suppressor genes) as well...

15. Statistical Thermodynamics: Molecules to Machines

Modern engineering research focuses on designing new materials and processes at the molecular level. Statistical thermodynamics provides the formalism for understanding how molecular interactions lead to the observed collective behavior at the macroscale. This course will develop a molecular-level understanding of key thermodynamic quantities like heat, work, free energy and entropy. These concepts will be applied in understanding several important engineering and biological applications...

16. Extracellular Vesicles in Health and Disease

This course aims to provide current understanding about extracellular vesicles (EVs) and their role in health and diseases. The EVs are known to be involved in cell to cell communication. Apart from maintaining normal cell physiology, EVs deliver messages that can drive or influence the progression of a disease. This course discusses recent advances made in the field to give an introduction on their function in health as well as in disease.This course includes four modules. Module 1 is an...

17. Classical papers in molecular genetics

You have all heard about the DNA double helix and genes. Many of you know that mutations occur randomly, that the DNA sequence is read by successive groups of three bases (the codons), that many genes encode enzymes, and that gene expression can be regulated. These concepts were proposed on the basis of astute genetic experiments, as well as often on biochemical results. The original articles were these concepts appeared are however not frequently part of the normal curriculum of biologists,...

18. Plant Bioinformatic Methods

The past 15 years have been exciting ones in plant biology. Hundreds of plant genomes have been sequenced, RNA-seq has enabled transcriptome-wide expression profiling, and a proliferation of "-seq"-based methods has permitted protein-protein and protein-DNA interactions to be determined cheaply and in a high-throughput manner. These data sets in turn allow us to generate hypotheses at the click of a mouse or tap of a finger.The Plant Bioinformatics Specialization on Coursera introduces core...

19. Global Disease Masterclass

The Global Disease Masterclass specialisation aims to provide students with an overview of core health challenges and lines of epidemiological research being undertaken, across a range of infectious and non-communicable diseases.\n\nThe specialisation begins by examining the global distribution of diseases and the major trends that we have seen in the last several decades. Simultaneously, we consider the data that are used to construct such estimates. We then consider the role of social...