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Team simulates a living cell that grows and divides

Researchers at the University of Illinois simulate the entire cell cycle of a minimal bacterial cell, replicating DNA and cellular functions. The team's three-dimensional, fully dynamic kinetic model mimics the actual cell, revealing the extent of DNA replication and symmetrical cell division.

SAMSUNG T9 Portable SSD 2TB

SAMSUNG T9 Portable SSD 2TB transfers large imagery and model outputs quickly between field laptops, lab workstations, and secure archives.

Anker Laptop Power Bank 25,000mAh (Triple 100W USB-C)

Anker Laptop Power Bank 25,000mAh (Triple 100W USB-C) keeps Macs, tablets, and meters powered during extended observing runs and remote surveys.

New genes, old job: The cell cycle evolves

Researchers mapped human cell cycle gene activity and found recently evolved transcription factors play a crucial role in regulating the process. Disabling these genes caused cells to struggle with DNA copying and division timing.

Why some cells are more susceptible to cancer

Researchers found that mutated cells dividing rapidly and having shorter cell cycles are more likely to develop cancer. In contrast, those with longer cycles exhibit resistance. The study suggests that interventions targeting cell cycle length could prevent cancer initiation in high-risk individuals.

Davis Instruments Vantage Pro2 Weather Station

Davis Instruments Vantage Pro2 Weather Station offers research-grade local weather data for networked stations, campuses, and community observatories.

Glitch in protein synthesis could affect tumour growth

A glitch in protein synthesis, known as stop codon readthrough, may affect tumour growth and cancer cell proliferation. The study found that preventing this process can lead to increased degradation of target proteins and a delayed cell cycle, resulting in slower tumour growth.

Scientists track ‘doubling’ in origin of cancer cells

Researchers at Johns Hopkins Medicine have charted a molecular pathway that can lure cells down a hazardous path of duplicating their genome too many times, a hallmark of cancer cells. The findings reveal what goes wrong when a group of molecules and enzymes trigger the cell cycle, leading to cancer development.

Sony Alpha a7 IV (Body Only)

Sony Alpha a7 IV (Body Only) delivers reliable low-light performance and rugged build for astrophotography, lab documentation, and field expeditions.

U of T researchers map protein network dynamics during cell division

Researchers at U of T have mapped the movement of proteins encoded by the yeast genome throughout its cell cycle, identifying patterns of emergence and disappearance or movement to specific areas. The study provides a unique dataset that offers a genome-scale view of molecular changes during cell division.

Damage to cell membranes causes cell aging

A recent study published in Nature Aging suggests that mechanical damage to the cell membrane can induce cellular senescence, a state characterized by cell cycle arrest and tissue dysfunction. This mechanism involves calcium ion influx and the tumor suppressor gene p53, offering new insights into the aging process.

When growth becomes a weakness

Cancer cells' uncontrolled growth leads to a loss of ability to divide due to genetic damage accumulation. Simultaneous treatment with growth and division inhibitors can restore cellular function.

A modified mRNA aids heart attack recovery in mouse and pig models

Researchers at the University of Alabama at Birmingham have developed a modified messenger RNA that can temporarily induce cardiomyocyte cell division, leading to reduced infarct size and improved heart function. The treatment has shown promise in mouse and pig models without increasing the risk of deadly arrhythmias.

Creality K1 Max 3D Printer

Creality K1 Max 3D Printer rapidly prototypes brackets, adapters, and fixtures for instruments and classroom demonstrations at large build volume.

A chronic wound model to investigate skin cellular senescence

A new study presents a chronic wound murine model that characterizes the role of persistent senescent cell accumulation in delayed wound closure. The molecular profiles of senescent cells demonstrate the adverse influence of SASP factors, highlighting a potential root-cause-driven therapeutic strategy.

Apple Watch Series 11 (GPS, 46mm)

Apple Watch Series 11 (GPS, 46mm) tracks health metrics and safety alerts during long observing sessions, fieldwork, and remote expeditions.

Cells avoid multitasking

Researchers at the University of Groningen discovered that cells separate essential biochemical reactions into different time periods. This separation explains metabolic oscillations leading up to cell division and has implications for our understanding of cellular physiology, cancer, and aging.

Study shows how cells prevent harmful extra DNA copies

Researchers at Weill Cornell Medicine have identified a crucial mechanism that prevents cells from replicating extra DNA, reducing the risk of cancer and genome instability. The study reveals that a licensing protein called CDT1 acts as a brake on DNA replication, preventing it from progressing once licensed sites are established.

Beyond the average cell

Researchers from Washington University in St. Louis and Purdue University used single-cell data to develop a new framework for understanding the relationship between cell growth, DNA replication, and division in bacteria. They found that individual cells can exquisitely coordinate these processes, despite the 'noisiness' of each process.

DJI Air 3 (RC-N2)

DJI Air 3 (RC-N2) captures 4K mapping passes and environmental surveys with dual cameras, long flight time, and omnidirectional obstacle sensing.

DDX41: A key nuclear player in maintaining genomic stability

Researchers have characterized the functional significance of DDX41 in molecular processes underlying cancer. The study reveals that DDX41 serves crucial functions in transcriptional processes, RNA splicing, and genomic integrity maintenance, which may hold significance in treating hematopoietic malignancies.

Rigol DP832 Triple-Output Bench Power Supply

Rigol DP832 Triple-Output Bench Power Supply powers sensors, microcontrollers, and test circuits with programmable rails and stable outputs.

3D printing plant cells shows promise for studying cell function

Researchers at NC State University have developed a reproducible method for studying cellular communication in plant cells using 3D bioprinting. The study found that more than half of the bioprinted cells were viable and divided over time, with soybean embryonic cells remaining viable for two weeks after bioprinting.

Zhang and colleagues win an $11.2 million NIH program project grant

Researchers led by Jianyi Zhang aim to find key pathways for reprogramming adult heart muscle cells to proliferate in response to a heart attack, potentially leading to improved heart attack recovery through growth of new heart muscle cells. The grant will fund three projects at UAB and two other universities.

New understanding of how faulty metabolism triggers adrenal cancer

A new study from the University of Alabama at Birmingham reveals how impaired metabolism due to mutations in succinate dehydrogenase B disables a normal bioenergetic sensing mechanism, leading to uncontrolled cell proliferation. This discovery sheds light on how cancer cells divide despite having a less efficient energy production.

Apple iPhone 17 Pro

Apple iPhone 17 Pro delivers top performance and advanced cameras for field documentation, data collection, and secure research communications.

Opening new doors: First synthetic mechanosensitive potassium channel

Researchers at Tokyo Institute of Technology have successfully synthesized a synthetic mechanosensitive potassium channel, exhibiting stimuli responsiveness and selective ion transport. The new ion channel could lead to breakthroughs in therapeutic treatments for ion-channel related diseases.

Tissue model reveals key players in liver regeneration

Researchers at MIT have created a new liver tissue model that identifies one molecule playing a key role in human liver regeneration. The study also reveals several other candidates that will be explored further to discover new human-specific pathways.

Apple iPad Pro 11-inch (M4)

Apple iPad Pro 11-inch (M4) runs demanding GIS, imaging, and annotation workflows on the go for surveys, briefings, and lab notebooks.

Advance in understanding cell division could lead to new cancer treatments

A recent study by Weill Cornell Medicine and Dana Farber Cancer Institute reveals that CDC7 is replaceable by CDK1 in cell division, opening up new avenues for cancer therapies. The finding highlights the complex molecular orchestration of the cell cycle and suggests a powerful new strategy against cancer.

Celestron NexStar 8SE Computerized Telescope

Celestron NexStar 8SE Computerized Telescope combines portable Schmidt-Cassegrain optics with GoTo pointing for outreach nights and field campaigns.

The surprising diversity of the fallopian tube

Researchers create detailed 'atlas' of fallopian tube cells to better understand fertility and disease. The study identifies 10 epithelial cell subtypes and reveals new insights into ovarian cancer origins.

Hitting the brakes on the cell cycle for the formation of plant stomata

Researchers discovered that a transcription factor called MUTE induces a cell cycle inhibitor SMR4 to slow down the cell cycle, allowing for asymmetric division. A variant with excess SMR4 showed a longer cell cycle during symmetric division, revealing a crucial regulatory mechanism in plant stomatal development.

Garmin GPSMAP 67i with inReach

Garmin GPSMAP 67i with inReach provides rugged GNSS navigation, satellite messaging, and SOS for backcountry geology and climate field teams.

Hungry yeast are tiny, living thermometers

Researchers discovered that yeast cells can actively regulate temperature-dependent phase separation in their membranes. This process is crucial for membrane function and cell division. By adjusting the temperature, yeast cells can maintain a consistent state of phase separation, which may be essential for optimal cellular performance.

Sky-Watcher EQ6-R Pro Equatorial Mount

Sky-Watcher EQ6-R Pro Equatorial Mount provides precise tracking capacity for deep-sky imaging rigs during long astrophotography sessions.

Triggering autodegredation as mature cells begin regeneration

A new study finds that autodegredation, a process where mature cells break down specialized structures, enables regeneration in adult tissues. Genes Atf3 and Rab7b are upregulated during this process, allowing cells to return to the cell cycle and potentially contributing to cancer development.

Development of the world's first digital model of a cancer cell

Researchers at TU Graz developed the world's first digital model of a cancer cell, simulating rhythmic oscillation of membrane potential during cell cycle phases. The model enables prediction of changes in membrane potential caused by drug-induced switching on and off of ion channels.

Apple MacBook Pro 14-inch (M4 Pro)

Apple MacBook Pro 14-inch (M4 Pro) powers local ML workloads, large datasets, and multi-display analysis for field and lab teams.

Resetting the biological clock by flipping a switch

Researchers from the University of Groningen and Nagoya University developed a compound that can elongate the 24-hour cycle and be activated or deactivated using light. The study shows that it is possible to change the 24-hour cycle in cells or tissues to a 28-hour cycle, providing a new approach to analyzing the circadian clock system.