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

Cancer cells cooperate to source nutrients and support tumor growth

Cancer cells work together to source nutrients from their environment-a cooperative process that was previously overlooked by scientists but may be a promising target for treating cancer.

19 Feb 2025

Gene editing shows promise for treating trisomy at cellular level

Gene editing techniques may eventually allow trisomy to be treated at the cellular level, according to an in vitro proof-of-concept study.

18 Feb 2025

Human-specific gene variant may hold key to evolution of language

The origins of human language remain mysterious. Are we the only animals truly capable of complex speech? Are Homo sapiens the only hominids who could give detailed directions to a far-off freshwater source or describe the nuanced purples and reds of a dramatic sunset?

18 Feb 2025

Discovery of gene silencer offers hope for autosomal dominant leukodystrophy

A team led by University of Pittsburgh School of Public Health geneticists has shown, for the first time, that a gene "silencer" that resides in junk DNA is directly sparing people from a devastating and fatal progressive neurological disease.

13 Feb 2025

Study identifies novel enhancers linked to neuropsychiatric disorders

Neuropsychiatric disorders are becoming increasingly prevalent. Given their complex and multifactorial pathogenesis, there is an urgent need for effective and targeted therapies that can improve patients' quality of life.

13 Feb 2025

One shot to lower cholesterol for life? Scientists unlock a groundbreaking gene therapy

Researchers developed an epigenetic editing approach to silence the PCSK9 gene, achieving long-term cholesterol reduction without altering DNA, offering a potential one-time treatment for high cholesterol.

11 Feb 2025

New gene modification enhances CAR-T cell effectiveness against cancer

Researchers have identified a method to enhance the effectiveness of a promising cancer treatment. They found that modifying a specific gene improves the ability of immune cells to combat cancer for an extended period, potentially reducing the chance of cancer recurring.

7 Feb 2025

Jumbo phages' protective shield offers clues for fighting antibiotic resistance

Scientists are learning more about how an intriguing type of virus protects itself. Revealing its strategies could boost the fight against antibiotic resistance.

6 Feb 2025

Breakthrough drug improves treatment of medulloblastoma in mice

Brain cancer is the second-leading cause of death in children in the developed world. For the children who survive, standard treatments have long-term impacts on their development and quality of life, particularly in small children and infants.

4 Feb 2025

Engineered fat cells starve tumors and prevent cancer growth

Scientists transformed energy-storing white fat cells into calorie-burning 'beige' fat. Once implanted, they outcompeted tumors for resources, beating back five different types of cancer in lab experiments.

4 Feb 2025

Breakthrough in gene-editing with Cas12a for modeling human diseases

Australian cancer researchers are the first to establish a next-generation gene-editing tool for modeling and interrogating human disease.

31 Jan 2025

New findings could make off-the-shelf CAR T cell therapy a reality

CAR T cell therapy is one of the most promising new cancer treatments to emerge in recent years. It involves removing a patient's own immune T cells and engineering them to recognize specific targets on the surface of the cancer cell.

31 Jan 2025

Researchers create random versions of human genomes to study disease

The most complex engineering of human cell lines ever has been achieved by scientists, revealing that our genomes are more resilient to significant structural changes than was previously thought.

31 Jan 2025

New light-controlled tools offer real-time protein control in living cells

A research group at Umeå University has developed new advanced light-controlled tools that enable precise control of proteins in real time in living cells.

30 Jan 2025

Study reveals how glial cells respond to damage in neuron dendrites

Neurons may get all the glory, but they would be nothing without glial cells. While brain cells do the heavy lifting in the nervous system, it's the glia that provide nutrients, clean up waste, and protect neurons from harm.

29 Jan 2025

BEND lipids revolutionize mRNA delivery and gene-editing

Every time a shuttle docks with the International Space Station (ISS), a delicate dance unfolds between the shuttle's docking system and its counterpart on the station.

28 Jan 2025

Revvity ignites scientific breakthroughs at SLAS2025

Revvity, Inc. is set to unveil its groundbreaking new Phenologic.AI™ software at SLAS2025 in San Diego, January 27-29. Designed to redefine cellular imaging workflows for Revvity’s Harmony™ and Signals Image Artist™ software packages, the Phenologic.AI software leverages pre-trained deep-learning models to analyze brightfield images, providing an additional multiplexing channel and streamlined workflows for live cell analysis.

From Revvity 24 Jan 2025

Researchers discover how location affects immune cells' role in fighting disease

The human immune system is like an army of specialized soldiers (immune cells) each with a unique role to play in fighting disease.

22 Jan 2025

New rabbit model provides insights into CF-related pancreatic endocrine pathology

Cystic fibrosis (CF) is a life-threatening genetic disease affecting multiple organ systems, with pancreatic dysfunction representing a critical and often overlooked complication.

17 Jan 2025

New approach shows promise in fighting multiple cancers

The tissue adjacent to a tumor behaves differently than areas farther away: The tumor's cancerous cells influence their surroundings, blocking the body's immune defenses and creating a sort of haven in which the tumor can grow. Treatments that target some of these pro-tumor actions are effective in a number of cancers, but only for some patients; in others, these treatments have little effect.

17 Jan 2025