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

New Insights into RNA Editing Mechanisms for Autoimmune and Cancer Therapies

A research team led by Yang Gao from Rice University has made significant strides in understanding the molecular mechanisms of ADAR1, a protein that modulates ribonucleic acid (RNA) induced immune responses.

18 Mar 2025

Understanding How Tumor-Derived Extracellular Vesicles Enter Target Cells

Most cells in the body send out little messengers called extracellular vesicles that carry proteins, lipids, and other bioactive molecules to other cells, playing an important role in intercellular communication.

17 Mar 2025

Breakthrough Microscopy Sheds Light on the Dynamics of Biomolecular Condensates

Biomolecular condensates are shifting blobs in our cells that organize cellular matter. They are distinct molecular communities made of DNA, RNA and proteins that "condense" molecules to key locations, yet they frequently defy description.

17 Mar 2025

New Discovery in RNA Splicing Could Transform Treatment of Aggressive Cancers

Alternative RNA splicing is like a movie editor cutting and rearranging scenes from the same footage to create different versions of a film.

17 Mar 2025

Ultrasensitive Pathogen Detection Without Nucleic Acid Amplification

Rashid Bashir, a Bioengineering Professor and Dean of the Grainger College of Engineering oversaw a group of researchers in a project that produced new technology that provides quick, extremely sensitive detection of bacteria and other pathogens at low concentrations that are resistant to multiple drugs.

17 Mar 2025

Stanford Researchers Find a Molecule That Rivals Ozempic in Weight Loss

BRP emerges as a promising peptide for weight loss, activating appetite control pathways without triggering nausea, paving the way for safer obesity therapies.

17 Mar 2025

Mitochondria Found to Control DNA Repair Protein and Delay Inflammaging

In humans and other multicellular organisms, cells multiply. This defining feature allows embryos to grow into adulthood, and enables the healing of the many bumps, bruises and scrapes along the way.

14 Mar 2025

Study Reveals How Syngap1 Gene Affects Touch-Based Perception in Mice

You may scarcely notice it, but much of what you do every day requires your brain to engage in perceptual learning.

14 Mar 2025

Pig Retinal Organoids Offer Promising Model for Stem Cell-Based Vision Therapies

Inside the human eye, the retina is made up of several types of cells, including the light-sensing photoreceptors that initiate the cascade of events that lead to vision.

14 Mar 2025

Extrachromosomal DNA Discovered as a Hidden Factor in Pancreatic Cancer Survival

Pancreatic cancer is one of the deadliest cancers worldwide, with a five-year survival rate of 13%.

14 Mar 2025

Bispecific antibodies for SARS-CoV-2 variant neutralization

Bispecific antibodies targeting multiple SARS-CoV-2 sites offer enhanced neutralization against emerging variants, advancing COVID-19 treatment strategies.

14 Mar 2025

SRS Microscopy Unlocks New Insights into Cellular Metabolism and Disease

Cellular metabolism plays a critical role in various physiological and pathological processes. High resolution imaging of intracellular metabolic activities is crucial for understanding many biological pathways, and for facilitating disease prognosis and treatment assessment.

14 Mar 2025

Fruit Fly Study Reveals Temperature's Role in Brain Development and Behavior

The rate of development of poikilothermic animals, such as insects, fish, and reptiles, is determined by environmental temperature.

14 Mar 2025

Molecular Intelligence Simplifies Cryo-EM Data Analysis with AI

Scientists from Purdue University’s College of Science and the Rosen Center for Advanced Computing have established Molecular Intelligence, a software company dedicated to assisting researchers in determining the 3D structures of biomolecules captured through cryogenic-electron microscopy (cryo-EM).

13 Mar 2025

New Cannabinoid Drug Brings Hope For Treating Chronic Pain Without Addiction

VIP36, a new CB1 agonist, targets a cryptic pocket to provide analgesia for chronic pain while minimizing side effects and avoiding opioid-related risks.

13 Mar 2025

Researchers Create 'Colocatome' to Study Tumor Cell Interactions

Even cells experience peer pressure. Scientists have long studied the ins and outs of cancer cells to learn more about the disease, but they're increasingly finding that noncancerous cells near the cancer cells exert a powerful influence over a tumor's trajectory.

13 Mar 2025

Study Finds Key Mechanism Behind Plasma Cell Migration for Lasting Immunity

Vaccine effectiveness relies on creating a strong antibody response that can be reactivated to fight future infections.

13 Mar 2025

Novel Tool Uses DNA Barcode System for Deep-Tissue RNA and Protein Imaging

For the Liu Lab, necessity is truly the mother of invention. The researchers were examining how the 3D organization of the genome controls development and needed to image hundreds of RNA molecules in a thick tissue sample to understand where and how genes were being expressed in cells.

13 Mar 2025

Study Explores the Physiological Role of Nwd1 Gene in MASH Pathogenesis

Metabolic dysfunction-associated steatohepatitis (MASH) is a liver disease that progresses without symptoms and is associated with significant global public health concerns.

12 Mar 2025

Can We Engineer Crops to Withstand Climate Change and Increasing Temperatures?

Investigating heat stress in crops, this review highlights genetic adaptations and CRISPR techniques to develop resilient varieties for sustainable agriculture.

12 Mar 2025