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But there’s some bad news: Proxima Centauri tends to bombard any planets in its vicinity with a ferocious amount of X rays — Proxima b receives about 400 times the amount as Earth receives from its Sun.

That leads to the question: “Is there an atmosphere that protects the planet from these deadly rays?” asked co-author Christophe Lovis, a researcher who worked on ESPRESSO, in the statement. Lovis hopes that the next generation of spectrographs — ESPRESSO’s successor, “RISTRETTO,” is already in the works — could help us find the answer.

For us to get a closer look at Proxima b however, Proxima Centauri is “only” 4.2 light-years from the Sun — meaning it would still take several thousand years to get there using today’s propulsion technology.

Continue reading “New Research: Closest Exoplanet to Earth Could Host Life” | >

This is one of four blogs in a series examining current challenges and opportunities for recycling of clean energy technologies. Please see the introductory post, as well as other entries on solar panels and wind turbines.

us department of energy[ caption] courtesy union concerned scientists. by james gignac, lead midwest energy analyst this is one four blogs in a series examining current challenges and opportunities for recycling clean technologies. please see the introductory post, as well other entries on solar panels and wind turbines. special thanks to jessica garcia, ucs’s=

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The Sterile Insect Technique (SIT) is based on the mass release of sterilized male insects to reduce the pest population size via infertile mating. Critical for all SIT programs is a conditional sexing strain to enable the cost-effective production of male-only populations. Compared to current female-elimination strategies based on killing or sex sorting, generating male-only offspring via sex conversion would be economically beneficial by doubling the male output. Temperature-sensitive mutations known from the D. melanogaster transformer-2 gene (tra2ts) induce sex conversion at restrictive temperatures, while regular breeding of mutant strains is possible at permissive temperatures. Since tra2 is a conserved sex determination gene in many Diptera, including the major agricultural pest Ceratitis capitata, it is a promising candidate for the creation of a conditional sex conversion strategy in this Tephritid. Here, CRISPR/Cas9 homology-directed repair was used to induce the D. melanogaster-specific tra2ts SNPs in Cctra2. 100% female to male conversion was successfully achieved in flies homozygous for the tra2ts2 mutation. However, it was not possible, to identify a permissive temperature for the mutation allowing the rearing of a tra2ts2 homozygous line, as lowering the temperature below 18.5 °C interferes with regular breeding of the flies.

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Circa 2019

New research conducted at OHSU in Portland, Oregon, identifies a gene that could provide a new target for developing medication to prevent and treat alcoholism.

Scientists at the Oregon National Primate Research Center at OHSU discovered a gene that had lower expression in the brains of nonhuman primates that voluntarily consumed heavy amounts of alcohol compared with those that drank less.

Furthermore, the research team unraveled a link between alcohol and how it modulates the levels of activity of this particular gene. Researchers discovered that when they increased the levels of the gene encoded protein in mice, they reduced alcohol consumption by almost 50 percent without affecting the total amount of fluid consumed or their overall well-being.

Continue reading “New target to prevent, treat alcoholism identified” | >

Battery Council International (BCI), Chicago, and Essential Energy Everyday have released a study showing lead batteries have a recycling rate of 99.3 percent, making them the No. 1 recycled consumer product in the U.S.

The groups say the near-perfect rate of recycling is attributed to industry investment in a closed loop collection and recycling system that keeps 1.7 million tons of batteries out of landfills annually.

The National Recycling Rate Study, released in conjunction with America Recycles Day Nov. 15, 2017, demonstrates the sustainability of lead batteries and their role in environmentally friendly energy storage for automotive and industrial applications, say the organizations.

Continue reading “Study finds nearly 100 percent recycling rate for lead batteries” | >

The p53 gene like the Rb gene, is a tumor suppressor gene, i.e., its activity stops the formation of tumors. If a person inherits only one functional copy of the p53 gene from their parents, they are predisposed to cancer and usually develop several independent tumors in a variety of tissues in early adulthood. This condition is rare, and is known as Li-Fraumeni syndrome. However, mutations in p53 are found in most tumor types, and so contribute to the complex network of molecular events leading to tumor formation.

The p53 gene has been mapped to chromosome 17. In the cell, p53 protein binds DNA, which in turn stimulates another gene to produce a protein called p21 that interacts with a cell division-stimulating protein (cdk2). When p21 is complexed with cdk2 the cell cannot pass through to the next stage of cell division. Mutant p53 can no longer bind DNA in an effective way, and as a consequence the p21 protein is not made available to act as the ‘stop signal’ for cell division. Thus cells divide uncontrollably, and form tumors.

Help with unraveling the molecular mechanisms of cancerous growth has come from the use of mice as models for human cancer, in which powerful ‘gene knockout’ techniques can be used. The amount of information that exists on all aspects of p53 normal function and mutant expression in human cancers is now vast, reflecting its key role in the pathogenesis of human cancers. It is clear that p53 is just one component of a network of events that culminate in tumor formation.

Continue reading “The p53 tumor suppressor protein” | >