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.

Global Market Overview: Metabolomics

What is Proteomics?

What is Single-Cell Proteomics?

Racial Differences in Protein Biomarkers

Combining Proteomics and Genomics to Eliminate Disease

Using Omics to Harness the Power of Personalized Nutrition

How is Omics Revolutionizing Cancer Research?

Insight into the Human Proteoform Project

Omics Approaches to Biomarker Analysis

The Role of Metabolomics in Precision Medicine

The Human Metabolome Project

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Role of Applied Omics in Precision Medicine

What is Metabolomics?

Challenges with Standardization in Lipidomics

To the Bone: How Proteomics is Uncovering the Mysteries of Ancient DNA

Ethics in Clinical Proteomics

Applications of Peptidomics

How do we Radiolabel Proteins?

What is Clinical Proteomics?

Understanding Native Protein Characterization

What is 'Bottom-Up' Proteomics?

What is Shotgun Lipidomics?

A Beginners Guide to Plasma Proteomics

Lipidomics in Food Science

Protein Biosynthesis

What are Prions?

Challenges in Environmental Metabolomics

Discovering Misfolded Proteins using Fluorescent Probes

Compound Identification for Nontargeted Metabolomics

Combating Infectious Diseases Through Computational Protein Design

What is Forensic Proteomics?

Eliminating American Foulbrood using Endolysins

Environmental Metabolomics

How are the Metabolome and Proteome Related?

Importance of Lipidomics in Stem Cell Research

Interpreting Proteomics Data

What Role do Proteins Play in Disease?

Metabolomics in Toxicology

What is 4D Proteomics?

What is Phosphoproteomics?

Importance of Blood Serum Calorimetry in Lung Cancer Treatment

What is Protein Ubiquitylation?

What is the Metabolome?

Applications of Bone Proteomics

What are G-Protein-Coupled Receptors?

A Guide to Optimizing Protein Design

Determining Proteins in Milk Using Dumas Analysis

Role of Proteomic Analysis in Skin Regeneration

An Overview of Protein Localization

Liver Disease Biomarkers

What is Pharmacometabolomics?

Protein Degradability

Comparison Between Metabolic Target Analysis and Metabolic Profiling

Analyzing Proteomes Using LC-MS/MS

Challenges in Metabolomic Fingerprinting

The Steps of Protein Synthesis

Effects of Filtered Coffee on Plasma Metabolites

How have Fluorescent Proteins Transformed Science?

Compound Identification for Nontargeted Metabolomics

Combating Counterfeit Green Tea with Metabolomic Profiling

Protein Production: Initiation, Elongation and Termination

What is Phenomics?

Importance of Solubility and Lipophilicity in Drug Development

How does the Proteome Differ Between Individuals?

What is Immunoliposome Therapy?

Heritability Differences in Metabolic Classes

Exploring Biosynthetic Diversity

Pharmacokinetics of Cannabis and its Secondary Metabolites

Understanding Neurobiology through Proteins

The ‘omics’ Revolution

How Can Proteins Help Organisms to Tell the Time?

Role of Proteomics in COVID-19

An Overview of Quantitative Proteomics

What is Western Blotting?

How are Advancements in Mass Spectrometry Impacting Metabolomics Research?

Studying the Metabolic Pathways Between Tissues

Quantifying Protein Diversity: Using DIA-MS to Measure Post-Translational Modifications

Investigating the Evolution of Microbiome Science

How to Analyze Macromolecular Protein Complexes

Cytometric Bead Arrays: A Breakdown of the Technique

Latest Proteomics, Metabolomics and Lipidomics News and Research

Quantifying Breast Cancer Heterogeneity Through Single-Cell Transcriptomics

Tumors are complex systems characterized by variations across genetic, transcriptomic, phenotypic, and microenvironmental levels.

18 Jun 2025

New Inherited Disorder Impairs DNA Repair and Raises Cancer Risk

A new hereditary condition has been discovered that affects patients' ability to repair DNA – leaving them both at greater risk of developing blood cancer, and unable to repair some of the damage caused by chemotherapy treatments.

18 Jun 2025

Histone Variant H2AZ1 Identified as Key Driver of Stem Cell Aging

Cellular senescence-a state of irreversible growth arrest accompanied by chronic inflammation-is a major contributor to aging and tissue degeneration.

18 Jun 2025

Ancient Immune Sensor STING Found to Regulate Gut Microbe Tolerance

Thousands of bacterial and other microbial species live in the human gut, supporting healthy digestion, immunity, metabolism and other functions.

18 Jun 2025

Bio-Rad Extends Anti-Idiotypic Antibody and SpyCatcher Reagent Ranges for Bioanalysis and Antibody Drug Development

Bio-Rad Laboratories, Inc., a global leader in life science research and clinical diagnostics products, today extended its range of recombinant monoclonal anti-idiotypic antibodies with the introduction of antibodies specific to pertuzumab (Perjeta), guselkumab (Tremfya), canakinumab (Ilaris), belimumab (Benlysta), and the bispecific drug emicizumab (Hemlibra).

18 Jun 2025

Novel Tool moPepGen Uncovers Hidden Genetic Variants at the Protein Level

Scientists at UCLA and the University of Toronto have developed an advanced computational tool, called moPepGen, that helps identify previously invisible genetic mutations in proteins, unlocking new possibilities in cancer research and beyond.

17 Jun 2025

Evosep Joins P4ML to Power World’s Largest Multi-Omic Human Health Study of Two Million Samples

Evosep, a global leader in robust, high-throughput proteomics technologies, has been selected as the proteomics platform provider for the P4ML - OMICAssist Study—the world's largest multi-omic precision medicine initiative, launched by P4ML alongside its strategic academic, health regulatory, and semi-state partners in the United Arab Emirates.

From Evosep 17 Jun 2025