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tag salivary gland genetics genomics developmental biology

Aphid Salivary Gene May Regulate Gall Color
Asher Jones | May 1, 2021 | 2 min read
Whether the galls that aphids make on witch hazel leaves are red or green is associated with a gene expressed in the insects’ salivary glands.
3d rendered medically accurate illustration of a human embryo anatomy
The Ephemeral Life of the Placenta
Danielle Gerhard, PhD | Dec 4, 2023 | 10+ min read
Recent advances in modeling the human placenta, the least understood organ, may inform placental disorders like preeclampsia.
Advances in the functional characterization of newly discovered microproteins hint at their diverse roles  in health and disease
The Dark Matter of the Human Proteome
Annie Rathore | Apr 1, 2019 | 10 min read
Advances in the functional characterization of newly discovered microproteins hint at diverse roles in health and disease.
From the Ground Up
Anna Azvolinsky | Feb 1, 2017 | 8 min read
Instrumental in launching Arabidopsis thaliana as a model system, Elliot Meyerowitz has since driven the use of computational modeling to study developmental biology.
Genome Digest
Molly Sharlach | Oct 13, 2014 | 5 min read
What researchers are learning as they sequence, map, and decode species’ genomes
Top 10 Innovations 2021
2021 Top 10 Innovations
The Scientist | Dec 1, 2021 | 10+ min read
The COVID-19 pandemic is still with us. Biomedical innovation has rallied to address that pressing concern while continuing to tackle broader research challenges.
The Genetics of Society
Claire Asher and Seirian Sumner | Jan 1, 2015 | 10 min read
Researchers aim to unravel the molecular mechanisms by which a single genotype gives rise to diverse castes in eusocial organisms.
Malaria's Pragmatic Approach to Gene Expression
Ishani Ganguli(iganguli@the-scientist.com) | Nov 20, 2005 | 5 min read
Amosquito alights on a human victim and pierces the skin, injecting its salivary mixture of anticoagulants to make blood flow smoothly while feeding.
Embryonic origins of autoimmunity
Andrea Gawrylewski | Feb 25, 2008 | 1 min read
linkurl:Autoimmune;http://www.the-scientist.com/article/display/53106/ diseases may not stem from defects in the immune system alone. Rather, developmental genetic abnormalities in organ tissues may make those organs more susceptible to autoimmune disorders, according to a linkurl:paper;http://www.nature.com/icb/journal/vaop/ncurrent/abs/icb20086a.html published online today in Immunology and Cell Biology. "The former explanations of how these [autoimmune] diseases occur weren't totally
A Periodic Table for Biology
John Torday | Jun 20, 2004 | 5 min read
COOPERATIVE CELLS:Courtesy of Michael CarrollThe evolution of complex biologic organisms began with the symbiotic relationship between pro- and eukaryotes (I). This relationship gave rise to mitochondria (II), and the resulting diversity of unicellular organisms (III) led to their metabolic cooperativity (IV) mediated by ligand-receptor interactions and cell-cell signaling. Natural selection generated an increasing complexity (V). Failed homeostatic signaling (VI) recapitulates hylogeny/ontogeny

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