Chromosome News and Research

RSS

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.

Research Pinpoints HMGN1 as Cause of Trisomy 21-Related Heart Abnormalities

Three copies of chromosome 21 causes Down syndrome (DS), and roughly half of children born each year in the United States with DS-approximately 2,600-also have congenital heart defects (CHDs).

23 Oct 2025

Croatian Scientists Rewrite the Story of Cell Division

Scientists at the Ruđer Bošković Institute (RBI) in Zagreb, Croatia, have discovered that the protein CENP-E, long believed to act as a motor dragging chromosomes into place during cell division, in fact plays a completely different role in chromosome movement.

22 Oct 2025

Warming Alters Histone Methylation and Iridoid Production in a Traditional Chinese Herb

For centuries, the concept of "geoherbalism" has underscored that traditional Chinese medicines grown in specific regions produce superior therapeutic effects.

10 Oct 2025

Multiple Genetic Changes Play Key Role in the Development of Complex Disorders

The genetic roots of a disease or disorder do not always grow into clear cut, easily diagnosed clinical features.

8 Oct 2025

Wasatch Biolabs Expands Service Portfolio with Oxford Nanopore Assays in Pharmacogenomics, Telomere Sequencing, and mRNA Vaccine Quality Control

Wasatch BioLabs (WBL), a Renew Biotechnologies subsidiary, and the largest U.S. sequencing service provider dedicated exclusively to long-read sequencing, today announced the addition of three Oxford Nanopore-developed research-use-only (RUO) assays to its service portfolio: a Pharmacogenomics (PgX) panel, Telomere Sequencing, and mRNA Vaccine Quality Control.

7 Oct 2025

EZH2 Inhibition Restores Order in Cancer Cell Division and Reduces Metastasis

Triple negative breast cancer (TNBC) is one of the most aggressive and hardest forms of breast cancer to treat, but a new study led by Weill Cornell Medicine suggests a surprising way to stop it from spreading.

6 Oct 2025

Chromosome Zippers Rely on DNA Junctions to Safeguard Fertility

Every new life begins after a genetic shuffle. When organisms make eggs or sperm, maternal and paternal chromosomes pair up and swap pieces of DNA in a process called crossing over.

26 Sep 2025

How Chromosome Crossovers Safeguard Fertility and Genetic Health

When a woman becomes pregnant, the outcome of that pregnancy depends on many things - including a crucial event that happened while she was still growing inside her own mother's womb.

25 Sep 2025

New Research Challenges the Static View of Chromosome Shape

An international team of researchers from the Francis Crick Institute, Imperial College London, Waseda University, and the Cancer Institute of the Japanese Foundation for Cancer Research has reshaped the concept of chromosome shape, discovering that they are not always stable X-shaped structures but are constantly in flux as cell division occurs.

24 Sep 2025

Oligo-Barcodes Enable High-Resolution Chromosome Mapping in Tropical Fruits

Karyotype analysis plays a central role in cytogenetics, helping to reveal evolutionary processes and species relationships.

23 Sep 2025

Novel Chromosome Identification System Overcomes Longstanding Bottleneck in Alfalfa Cytogenetics

Karyotype analysis is fundamental to understanding genetic makeup, diversity, and adaptation in plants. Yet, distinguishing individual chromosomes remains challenging in species with small, uniform chromosomes and complex polyploid genomes such as alfalfa.

22 Sep 2025

New Study Reveals How “Selfish Genes” Regulate Insects

New study sheds light on one of genetics' most persistent mysteries: how the workings of the so-called “selfish gene’ could have managed to control dangerous insect populations.

19 Sep 2025

Advanced Statistical Method Reduces Noise in Single-Cell RNA-Sequencing Data

The world of cells is surprisingly noisy. Each cell carries unique genetic information, but when we try to measure cellular activity, signals can be lost or blurred, and differences between experiments can further obscure the data.

18 Sep 2025

Loss of Zfy Genes Explains Why Some Sperm Fail

A study at the University of Hawaiʻi at Mānoa by researchers from the John A. Burns School of Medicine (JABSOM) found that losing a crucial male fertility gene causes infertility and alters the expression of hundreds of other genes.

17 Sep 2025

Exploring the Regulatory Potential of "Junk DNA"

The non-coding genome, once referred to as "junk DNA," is now understood to be a fundamental regulator of gene expression and a key factor in understanding complex diseases.

25 Aug 2025

New Method Enables Human Cells to Initiate Meiosis Outside the Body

More than one-sixth of adults around the world experience infertility in their lifetime. There is a high unmet need not only for increased access to affordable, high-quality fertility care for those in need but, importantly, also for new biomedical solutions that can address the root causes of infertility.

18 Aug 2025

Plant Genetics Research Reveals Dynamic and Diverse Centromere Behavior

Cell division is an essential process by which living organisms grow, replenish lost cells, and regenerate dead and damaged tissues.

8 Aug 2025

New PCE Systems Enable Precise Genome Engineering Across Kilobase to Megabase Scales

A team of Chinese researchers led by Prof. GAO Caixia from the Institute of Genetics and Developmental Biology of the Chinese Academy of Sciences has developed two new genome editing technologies, known collectively as Programmable Chromosome Engineering (PCE) systems.

5 Aug 2025

Researchers Identify Key Gene for Restoring Fertility in Hybrid Peppers

Cytoplasmic male sterility (CMS) systems have revolutionized hybrid seed production by eliminating the need for manual pollen removal.

30 Jul 2025

Genetic Mapping Uncovers Six New Species of Glasswing Butterflies

Some butterflies can smell others of the same species, allowing them to identify each other in areas where multiple species all look the same, new research finds.

30 Jul 2025