Although genomic data provides a significant amount of information regarding the molecular machinery of life cycles and cellular processes, details of gene expression and gene function are reflected ...
The metaproteomics approach is most often used to determine major catalytic units of analyzed microbial populations, which in turn enables the construction of genotype‐phenotype links from tested ...
Developments in next-gen multi-omics have made it possible to generate and process massive amounts of data that cover anything from genomic mutations to metabolomic and microbiological processes.
Metaproteomics is the large‐scale study of proteins from microbial communities in complex biological samples, providing direct functional readouts of microbiota in situ. When applied to ...
Robust, Unbiased and Affordable 4D-Proteomics™ for Highest-Specificity Protein IDs & Quant Enables High-Fidelity Large-Scale Plasma Proteomics Typical Sequence Coverage >10 Peptides/protein and >100k ...
The timsUltra AIP further enhances sensitivity by featuring the new AIP technology for further significant advances in high-sensitivity, high-throughput applications on complex biological samples, ...
Developments in next-gen multi-omics have made it possible to generate and process massive amounts of data that cover anything from genomic mutations to metabolomic and microbiological processes.
At the 73rd Conference on Mass Spectrometry and Allied Topics (ASMS), Bruker Corporation announced significant further advances in ultra-high sensitivity 4D-Proteomics with the introduction of the ...