CRISPR

In the late 1980s and mid-1990s, genomes of diverse lineages of bacteria and archaea (the latter representing a domain of single-celled prokaryotic microorganisms) revealed clusters of regularly interspaced short palindromic repeats, known today under the abbreviation CRISPR. Later it was found that these repeat sequences (previously considered disparate) share a common set of features.

CRISPR-Based Diagnostics: The Future of Disease Detection

CRISPR-based diagnostics offer transformative solutions for disease detection, utilizing advanced gene-editing tools for precise and rapid molecular testing.

Understanding CRISPR Therapy

CRISPR: Ethical and Safety Concerns

What is CRISPR/Cas9?

CPISPR Applications

CRISPR: The End for Zinc Fingers?

How Does CRISPR Compare to Other Gene-Editing Techniques?

Could CRISPR Repair CFTR in Cystic Fibrosis Patients?

Manipulating RNA sequences using CRISPR-Cas13

CRISPR-Cpf1

CRISPR Interference (CRISPRi) for Gene Suppression

Electroporation and the Production of Knockout Mice

See more featured articles »

CRISPR-Cas14: Discovery, Function, Advantages

Uses of CRISPR/Cas Biosensing Systems

Editing Sperm DNA using CRISPR

Unlocking the Potential: CRISPR-Cas9 Gene Editing in Liver Diseases

Latest CRISPR News and Research

Boosting CAR T cell survival to improve solid tumor therapy

Chimeric Antigen Receptor (CAR)-T cells are a promising cancer therapy that are made from the patient's own T cells, which are reprogrammed to fight their cancer. One of the limitations of CAR-T cell therapy is the ability of these cells to survive long enough to target the entire tumor.

13 Jun 2025

New CRISPR tool enables precise chemical modification of RNA in living cells

CRISPR-Cas13, a powerful RNA-targeting technology is gaining increasing attention as a next-generation gene therapy platform due to its precision and reduced side effects.

12 Jun 2025

Autophagy boosts precision in gene editing

Precision gene editing is crucial for treating genetic diseases, as it enables targeted correction of specific mutations.

12 Jun 2025

Blocking a single enzyme rewires limb regrowth in axolotls

Researchers uncovered how CYP26B1-mediated retinoic acid (RA) breakdown determines segment identity during axolotl limb regeneration. Disrupting RA degradation reprograms blastema cells, revealing the molecular controls of precise limb regrowth.

11 Jun 2025

New therapeutic approach targets PCSK9 to regulate blood cholesterol levels

When the amount of cholesterol in the blood is too high, hypercholesterolemia can develop, causing serious damage to the arteries and cardiovascular health.

11 Jun 2025

Patient-derived xenograft models may become an indispensable tool in precision oncology

Cancer remains one of the most pressing global health challenges, with millions of new diagnoses each year. While precision medicine and targeted therapies have transformed treatment strategies, many patients still face drug resistance and disease recurrence.

10 Jun 2025

Study links reelin to cocaine-induced brain and behavior changes

Cocaine, a drug of abuse, activates just a portion - 10 to 20 percent - of the neurons in the brain's nucleus accumbens, a critical region linked to motivation and addiction.

9 Jun 2025

Study offers new insights into how the body clears dead cells during stress

A new study from The University of Texas at Arlington details a novel strategy for how the body clears out dead cells during stress, revealing unexpected roles for well-known stress-response genes-a discovery that could help scientists better understand diseases affecting the immune system, brain and metabolism.

9 Jun 2025

Gene editing can trigger inflammatory, senescence-like responses in blood stem cells

Scientists at the San Raffaele Telethon Institute for Gene Therapy (SR-Tiget), Milan, have found that gene editing using CRISPR-Cas9 in combination with AAV6 vectors can trigger inflammatory and senescence-like responses in blood stem cells, compromising their long-term ability to regenerate the blood system.

5 Jun 2025

Understanding how base editing tools work at the molecular level

You may have seen it in the news recently: a baby in Pennsylvania with a rare genetic disorder was healed with a personalized treatment that repaired his specific genetic mutation.

4 Jun 2025

Universal CAR T cell therapy shows promise for aggressive T cell cancers

A new type of immunotherapy that targets aggressive blood cancers shows promising results alongside manageable side effects, according to the results of an international phase 1/2 clinical trial led by researchers at Washington University School of Medicine in St. Louis.

31 May 2025

Early allergen introduction reduces childhood food allergy risk

Investigating allergy prevention, this research highlights early intervention strategies and the promise of biologic treatments in managing allergic conditions.

29 May 2025

NUS researchers develop breakthrough gene delivery technology for immune cells

Researchers at the National University of Singapore (NUS) have developed a scalable, non-viral technology that efficiently delivers genetic material into human immune cells.

26 May 2025

Tuberculosis bacteria use molecular switch to pause and restart growth

The bacteria that cause tuberculosis (TB) may have an "on-off switch" that lets them pause and restart growth, according to a new study from the University of Surrey and the University of Oxford.

23 May 2025

New CRISPR technology delivers RNA precisely to repair damaged brain cells

When a neuron in our body gets damaged, segments of RNA produce proteins that can help repair the injury.

21 May 2025

Personalized gene editing corrects fatal infant metabolic disorder in world-first treatment

Researchers have used a personalised base-editing gene therapy to successfully treat an infant with carbamoyl-phosphate synthetase 1 (CPS1) deficiency, a rare and life-threatening inborn error of metabolism. This pioneering approach chemically corrects the underlying mutation without cutting DNA, showing promise for precision treatment of ultrarare genetic disorders.

20 May 2025

Study uncovers common trigger across gene mutations that cause ALS

Using the gene scissors CRISPR and stem cells, researchers at Stockholm University and the UK Dementia Research Institute (UK DRI) at King's College London have managed to identify a common denominator for different gene mutations that all cause the neurological disease ALS.

19 May 2025

Newly discovered Cat1 protein halts viral infections by depleting cellular fuel

Every living creature on Earth needs to protect itself from things that would do it harm. Bacteria are no different. And despite their relative simplicity, they deploy remarkably savvy defensive strategies against viral invaders.

18 May 2025

New gene editor evoCAST enables precise insertion of complete genes

Ask scientists what gene editing tool is most needed to advance gene therapy, and they'd probably describe a system that's now close to realization in the labs of Samuel Sternberg at Columbia University Vagelos College of Physicians and Surgeons and David Liu at the Broad Institute of MIT and Harvard.

15 May 2025

Customized CRISPR gene editing therapy successfully treats infant with rare disease

In a historic medical breakthrough, a child diagnosed with a rare genetic disorder has been successfully treated with a customized CRISPR gene editing therapy by a team at Children's Hospital of Philadelphia (CHOP) and Penn Medicine.

15 May 2025