ADVERTISEMENT

404

Not Found

Is this what you were looking for?

tag in vitro fertilization ivf ecology microbiology

bacteria and DNA molecules on a purple background.
Engineering the Microbiome: CRISPR Leads the Way
Mariella Bodemeier Loayza Careaga, PhD | Mar 15, 2024 | 10+ min read
Scientists have genetically modified isolated microbes for decades. Now, using CRISPR, they intend to target entire microbiomes.
Week in Review: March 7–11
Tracy Vence | Mar 10, 2016 | 1 min read
Resensitizing drug-resistant bacteria; MYC and immune response to cancer; mite-virus-bee ecology; epigenetics of IVF embryo sex; Zika and birth defects; p-value best practices
Week in Review: August 22–26
Tracy Vence | Aug 26, 2016 | 2 min read
“Beiging” white fat with caloric restriction; early-life antibiotics can elevate type 1 diabetes risk; melatonin and tooth development; Zika news; updated tissue-clearing protocol
An illustration of flowers in the shape of the female reproductive tract
Uterus Transplants Hit the Clinic
Jef Akst | Aug 1, 2021 | 10+ min read
With human research trials resulting in dozens of successful deliveries in the US and abroad, doctors move toward offering the surgery clinically, while working to learn all they can about uterine and transplant biology from the still-rare procedure.
Bioremediation: Cleaning Up With Biology And Technology
Angela Martello | Jan 6, 1991 | 7 min read
As the necessity of cleaning up the environment moves to the forefront of the public's consciousness, researchers in increasing numbers have been enlisting some of the earth's tiniest creatures to help clean up highly polluted sites and reclaim soils and groundwater systems. Stimulated by advances in microbiology and biotechnology, the booming multidisciplinary field of environmental biotechnology focuses on the use of microorganisms to treat or degrade hazardous waste, encompassing the techniq
Top Technical Advances 2016
Kerry Grens | Dec 15, 2016 | 4 min read
The year’s most impressive achievements include methods to watch translation in cells, trace cell fates, avoid mitochondrial mutations, edit DNA, and build antibiotics from scratch.
"Big Cross" Lands Sticklebacks in the Spotlight
David Secko | Nov 7, 2004 | 5 min read
Marine threespine sticklebacks haven't morphologically changed in an estimated 10 million years, but their freshwater offshoots show no signs of slowing down. These 5-cm-long, freshwater fish have undergone a recent evolutionary change, variably losing their calcified body armor and retractable pelvic and dorsal spines. Remarkably, isolated marine and freshwater sticklebacks can be hybridized in the laboratory, a fact that is allowing researchers to analyze the genetics behind their natural dive
Surpassing the Law of Averages
Jeffrey M. Perkel | Sep 1, 2009 | 7 min read
By Jeffrey M. Perkel Surpassing the Law of Averages How to expose the behaviors of genes, RNA, proteins, and metabolites in single cells. By necessity or convenience, almost everything we know about biochemistry and molecular biology derives from bulk behavior: From gene regulation to Michaelis-Menten kinetics, we understand biology in terms of what the “average” cell in a population does. But, as Jonathan Weissman of the University of Califo
Preimplantation Genetic Diagnosis: The Next Big Thing?
Ricki Lewis | Nov 12, 2000 | 9 min read
Courtesy of David Hill, ART Reproductive Center Inc.Two separated blastomeres subjected to FISH analysis to check the chromosomes. In early October, preimplantation genetic diagnosis (PGD) made headlines when a Colorado couple used assisted reproductive technology (ART) to have a baby named Adam, whose umbilical cord stem cells could cure his six-year-old sister Molly's Fanconi anemia.1 When Adam Nash was a ball of blastomere cells, researchers at the Reproductive Genetics Institute at Illinois
Bringing Living Cells Into Focus: A View of Inverted Microscopes
Jim Kling | Mar 29, 1998 | 5 min read
Date: March 30, 1998 Author: Jim Kling Tables of Vendors What's really going on here? That question used to puzzle bleary-eyed microscopists as they stared at slides of immobilized cells--dead cells, of course. Then along came the inverted microscope. Its unique design placed the light source above the sample and the magnifying objective below it, allowing these new microscopes to peer into live cells bathed in media. Suddenly, scientists had a new view of the neighborhoods and boroughs occupied

Run a Search

ADVERTISEMENT