Proteomics, Metabolomics and Lipidomics

The ‘omics revolution ensued from the surge in genetic sequencing seen in the 1990s as scientists aimed to sequence the whole human genome. Advances in sequencing and analytical technologies allowed for increased efficiency and precision, and an integrated, comprehensive approach to understanding organisms followed.
This approach is termed “’omics” and includes the following fields; genomics, transcriptomics, proteomics, fluxomics, and metabolomics. These fields collectively consider all of their respective constituents.
For example, proteomics is the large-scale study of the entire complement of proteins in cell types or organisms. Unlike it’s predecessors, genomics and transcriptomics, proteomics is more complicated as it involves the consideration of post translational modifications, such as phosphorylation. Proteomics has practical applications in protein networks where the study of ways proteins interact aids the field of systems biology, the computational and mathematical analysis and modeling of complex biological systems. Proteomic technologies can be applied to high-throughput techniques, such as mass spectroscopy.
Over the last 30 years, the ’omics have received attention from the research community, the media, and the public alike, largely owing to the advances in scientific understanding that have resulted from ‘omics research. It remains an exciting and fast-paced field of study that is set to continue expanding our knowledge of biological molecules and systems.
Global Market Report: Proteomics

In this article, we discuss the applications of proteomics and its recent developments, along with reviewing the current global market and predicting how the field may evolve in the future.

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Overview

Feature Articles

Latest Proteomics, Metabolomics and Lipidomics News and Research

Unveiling the Protective Role of KLF6 in Diabetic Kidney Disease

Unveiling the Protective Role of KLF6 in Diabetic Kidney Disease

New Discovery Reveals How MX Protein Traps HIV and Herpes Viruses

New Discovery Reveals How MX Protein Traps HIV and Herpes Viruses

New study reveals hidden diversity of acetic acid bacteria in the sourdough microbiome

New study reveals hidden diversity of acetic acid bacteria in the sourdough microbiome

AI Uncovers Over 160000 New RNA Virus Species

AI Uncovers Over 160000 New RNA Virus Species

Unveiling the Link Between Genetics, Stress, and Type 2 Diabetes

Unveiling the Link Between Genetics, Stress, and Type 2 Diabetes

New Method for Identifying Kinase Inhibitors for Cancer Therapy

New Method for Identifying Kinase Inhibitors for Cancer Therapy

Researchers Develop Highly Selective SARS-CoV-2 Mpro Inhibitors

Researchers Develop Highly Selective SARS-CoV-2 Mpro Inhibitors

Engineering Tissue Domains with a Synthetic Biology Approach

Engineering Tissue Domains with a Synthetic Biology Approach

Study Unravels the Mystery of Hsp70 Chaperones

Study Unravels the Mystery of Hsp70 Chaperones

Unveiling the Enzymatic Riches of Spider Venoms

Unveiling the Enzymatic Riches of Spider Venoms

Bioengineered Bacteria with Mussel-Like Adhesion Could Clean Up Plastic

Bioengineered Bacteria with Mussel-Like Adhesion Could Clean Up Plastic

Scientists Uncover Secrets of Circadian Rhythm Control

Scientists Uncover Secrets of Circadian Rhythm Control

Microbial Enzyme From Sewage Sludge Offers Hope for Plastic Waste Reduction

Microbial Enzyme From Sewage Sludge Offers Hope for Plastic Waste Reduction

Genes2Genes Unlocks New Potential for Detecting Gene Expression Changes

Genes2Genes Unlocks New Potential for Detecting Gene Expression Changes

Mapping the Complex Structure and Function of CRISPR-Cas Protein Scissors

Mapping the Complex Structure and Function of CRISPR-Cas Protein Scissors

Discovering New Drug Targets Through Paralog Hopping

Discovering New Drug Targets Through Paralog Hopping

Structural Discovery of Fanzor Proteins Offers New Directions in Genome Engineering

Structural Discovery of Fanzor Proteins Offers New Directions in Genome Engineering

A New Understanding of Chromatin Regulation and its Implications

A New Understanding of Chromatin Regulation and its Implications

New Insights into U1 Snrnp Functions in Plant Splicing Mechanisms Using Arabidopsis

New Insights into U1 Snrnp Functions in Plant Splicing Mechanisms Using Arabidopsis

New AI Model ProteinGenerator Revolutionizes Protein Design with Sequence and Structure Integration

New AI Model ProteinGenerator Revolutionizes Protein Design with Sequence and Structure Integration

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