Chromosome News and Research

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In the nucleus of each cell, the DNA molecule is packaged into thread-like structures called chromosomes. Each chromosome is made up of DNA tightly coiled many times around proteins called histones that support its structure.

Chromosomes are not visible in the cell’s nucleus—not even under a microscope—when the cell is not dividing. However, the DNA that makes up chromosomes becomes more tightly packed during cell division and is then visible under a microscope. Most of what researchers know about chromosomes was learned by observing chromosomes during cell division.

Each chromosome has a constriction point called the centromere, which divides the chromosome into two sections, or “arms.” The short arm of the chromosome is labeled the “p arm.” The long arm of the chromosome is labeled the “q arm.” The location of the centromere on each chromosome gives the chromosome its characteristic shape, and can be used to help describe the location of specific genes.

Motor Proteins Help Reshape Chromosomes During Cell Division

It's tricky to make an exact copy of yourself. Or at least it is for cells undergoing mitosis, where cells replicate everything inside of them, including their neatly packaged DNA, then split in half.

28 May 2026

Cornell Researchers Develop Safer CRISPR Technique Using DNA Nicks

Researchers at Cornell University have developed a safer and more precise way to study how genes function in living tissues by refining a recently developed CRISPR-based genetic technique in fruit flies, enabling researchers to better study how genes contribute to development and disease.

28 May 2026

Dividing Cells Replicate Chromosomal Errors to Trigger Advanced Tumor Progression and Growth

Megan Sweet slices tumors.

26 May 2026

Protein Plays Dual Role by Silencing Thousands of Genes While Keeping Vital Ones Active

The causes of male infertility can be hard to diagnose, with many tests failing to detect genetic defects. Sometimes, infertility doesn't even involve the genes themselves. It can arise from improper folding of the father's DNA in the sperm. If a couple conceives, this mispackaged DNA can damage the lifelong health of the child.

21 May 2026

Cell Study Challenges Long-Standing View That Individual Human Genomes Evolve Independently

Scientists at Children's Medical Center Research Institute at UT Southwestern (CRI) have discovered that large pieces of DNA can transfer directly between human cells, and the DNA can persist and change how the recipient cell functions.

20 May 2026

Interactions Across the Genome Drive Neurodevelopmental Risks

People who have the same deletion of a section of chromosome 16 are susceptible to neurodevelopmental disorders; however, some may simply show moderate psychological symptoms like anxiety or depression, while others may have significant intellectual disability or developmental delay.

6 May 2026

AI Model Reads DNA Like Language to Trace Ancestry

Researchers at the University of Oregon have developed an artificial intelligence tool that can read genetic code the way large language models like ChatGPT read text. Scanning the genome for biological mutation patterns, the computer model traces pairs of genes back in time to their last common ancestor.

5 May 2026

Long Read Sequencing Uncovers Telomere Length Variation Across Chromosomes

In a new proof-of-concept study published in Nature Communications, researchers at the University of Chicago analyzed genomic data from more than 2,500 participants in the national All of Us research program to estimate chromosome-specific telomere length (csTL).

30 Apr 2026

Genetic Study Reveals Biological Drivers of Frailty in Aging

Researchers at McMaster University have identified, for the first time, a novel region of DNA and two associated genes connected to frailty, offering neurological and immune-related insights that might help explain why some older adults are more likely to be frail than others.

22 Apr 2026

Single-Molecule Imaging Reveals How Anabaena Maintains Its Rectangular Shape

Photosynthetic bacteria helped shape Planet Earth. Among them are cyanobacteria that produced the oxygen in our atmosphere and made complex life possible, captivating scientists for decades. Now, researchers at the Institute of Science and Technology Austria (ISTA) report a surprising new discovery-a system thought to separate DNA has developed to sculpt the shape of the cell in cyanobacteria instead. The results, published in Science, shed light on how protein systems evolve and how multicellularity emerged in this type of ecologically essential bacteria.

17 Apr 2026

Genomic Study Maps the Biosynthesis of Dihydromyricetin in Vine Tea

Vine tea has been consumed in China for centuries and is valued as both a beverage and a medicinal plant.

10 Apr 2026

RNU2-2 Variants Drive Most Common Recessive Neurodevelopmental Disorder

New findings on RNU2-2 syndrome highlight its role in neurodevelopmental disorders, emphasizing genetic counseling and early diagnosis for affected families.

9 Apr 2026

Excessive RNA Editing May Explain Neurological Differences in Down Syndrome

A collaborative research study co-led by scientists at the Icahn School of Medicine at Mount Sinai and the Liber Institute for Brain Development has for the first time identified a biological process that may help explain how the brain develops differently in people with Down syndrome. The study was a collaboration among scientists from the Icahn School of Medicine at Mount Sinai, the Lieber Institute for Brain Development, the Medical University of Sofia in Bulgaria, and the University of Arizona.

2 Apr 2026

Microtubules Act as Active Regulators of Key Cellular Enzymatic Reactions

Microtubules, the dynamic filaments that form the cell's internal scaffolding, have long been viewed as mere passive structural supports. But a new study reveals they play a far more active signaling role.

27 Mar 2026

Study Uncovers How "Selfish Chromosomes" Cheat the Rules of Genetic Inheritance

A new University of Utah-led study has discovered the mechanism behind a decades-old evolutionary mystery-how "selfish chromosomes" cheat the rules of genetic inheritance.

16 Mar 2026

NuSAP Protein Safeguards Centriole Structure During Cell Division

Biologists at the National University of Singapore (NUS) have uncovered how the protein NuSAP safeguards tiny structures inside cells called centrioles, revealing a mechanism linked to developmental disorders such as microcephaly and mosaic variegated aneuploidy (MVA) syndrome.

13 Mar 2026