Resources

Proteomics Databases



Metabolomics Databases

• • Plant Root System IEF-Based Protein Isoelectric Point Analysis

  Plant root systems are the main sites for interaction with the soil, where proteins play a key role in regulating plant growth, nutrient absorption, and response to environmental stress. Through IEF technology, researchers can isolate proteins in root samples, and then identify them with other techniques (such as mass spectrometry) to understand their functions.

• • Rotein Content Determination in Rat Cells by Colorimetry

  In the process of biomedical research and drug development, the determination of protein content is a fundamental and crucial experimental technique. It not only helps researchers understand the expression levels of proteins inside and outside cells but also evaluates the efficiency of protein purification and the impact of drugs on protein expression.

• • Analysis of Metal Content in Human Cells

  Metal elements, including iron, zinc, copper, magnesium, and calcium, are crucial for maintaining cellular function and health. These elements play roles in many biochemical processes, including but not limited to enzyme activity regulation, signal transduction, gene expression regulation, and serving as structural components of cells. Therefore, understanding the content and distribution of metal elements within cells is highly important for uncovering their roles in cellular physiology and pathology.

• • Tomato Fruit Tandem Mass Spectrometry Peptide Sequencing

  Tomatoes, as one of the vegetables with the largest cultivation area and highest consumption in the world, not only have a delicious taste but also contain abundant nutrients and bioactive substances. Behind all of this, it is closely related to the expression, modification, and interaction of proteins and peptides in tomato fruits.

• • Single Cell MS Flow Cytometry Analysis of Mouse Cells

  The rapid development of single-cell technology in the field of life sciences has greatly contributed to the understanding of biological system complexity. As a cutting-edge technology in this field, Single-Cell Mass Cytometry (SCMC) provides unprecedented depth and detail for cellular-level biological research through its unique analytical capabilities.

• • Analysis of Protein Mutations in Rat Cells

  In complex biological systems, proteins serve as the primary building blocks of molecular machines and play a central role in cellular functions and disease progression. Rats, as a model organism, hold a significant position in biomedical research. They possess similar physiological characteristics and disease models as humans, making them widely used in studies on disease mechanisms, drug development, and toxicology.

• • Glycosylation Quant Proteomics Study of Nannochloropsis

  MtoZ Biolabs applies advanced glycoproteomics technology to analyze protein glycosylation modifications in Nannochloropsis, revealing their crucial role in the development of bioenergy, creation of health food, and synthesis of bioactive substances. With high sensitivity detection and extensive coverage of glycosylation types, it provides a new perspective and method for the biological functional analysis and biotechnological applications of Nannochloropsis.