New Protein Process Trends

Posted on March 14, 2012 by Matt

Aviva Systems Biology monitors proteomic advancement in order to produce relevant reagents for research use. With thousands of different research trends, this assessment is not a trivial task. Luckily, research trends are documented in the form of publications.  At Aviva, we compare trends in publications in order to determine new and emerging fields.

The table below lists 50 areas of research involved with protein processes. The last column indicates the percentage of publications occurring within the last year, when compared to the total number of publications available. Aviva provides reagents for all of them, and links to reagents are provided.

Additional protein function categories can be searched by using Aviva’s Advanced Search Function.

Protein Process Category and Link to Aviva’s Products Percentage New Publications in 1 Year
gene silencing 12.1%
innate immune response 13.0%
neurogenesis 12.3%
protein ubiquitination 13.2%
autophagy 22.5%
mesenchymal cell proliferation 14.2%
histone methylation 14.1%
stem cell maintenance 13.0%
adaptive immune response 14.1%
histone modification 13.2%
histone lysine methylation 13.7%
Notch signaling pathway 14.2%
chromatin maintenance 12.3%
Toll signaling pathway 13.5%
mesenchymal cell apoptosis 15.4%
toll-like receptor signaling pathway 13.7%
endoplasmic reticulum unfolded protein response 17.0%
lymphangiogenesis 13.8%
protein sumoylation 13.4%
epithelial-mesenchymal cell signaling 21.0%
autophagic cell death 16.5%
BMP signaling pathway 12.0%
toll-like receptor 1 signaling pathway 13.4%
sprouting angiogenesis 12.8%
Wnt receptor signaling pathway 14.6%
toll-like receptor 4 signaling pathway 13.9%
pre-miRNA processing 20.1%
toll-like receptor 2 signaling pathway 13.2%
mitochondrial fission 15.8%
kinetochore assembly 12.6%
toll-like receptor 3 signaling pathway 13.1%
spindle assembly checkpoint 12.6%
anoikis 12.8%
protein polyubiquitination 13.7%
cellular triglyceride homeostasis 12.1%
stem cell fate specification 12.5%
histone demethylation 17.0%
nucleosome disassembly 13.5%
macroautophagy 17.7%
histone ubiquitination 17.9%
myeloid cell homeostasis 13.7%
intrinsic apoptotic signaling pathway 14.1%
germ-line stem cell maintenance 14.4%
toll-like receptor 5 signaling pathway 12.5%
T-helper 17 cell differentiation 20.2%
cilium assembly 12.7%
protein glutathionylation 16.6%
toll-like receptor 7 signaling pathway 13.1%
cellular protein catabolic process 13.2%
protein monoubiquitination 16.3%
protein lipidation 12.0%
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