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protein structure

Scientists Resurrect Ancient Rubiscos to Understand Their Evolution

Alejandra Manjarrez, PhD | Oct 14, 2022 | 5 min read

A team proposes that the addition of a small accessory subunit to the carbon-fixing enzyme was key to improving its catalytic properties and specificity to CO₂.

A ball-and-stick plus ribbons molecular model of the hormone orexin, also known as hypocretin, isolated on a white background.

2023 Breakthrough Prizes Showcase Research in AI and Narcolepsy

Amanda Heidt | Sep 22, 2022 | 2 min read

Three prizes were awarded to six researchers working across the life sciences on cellular organization, protein structure, and the genetic underpinnings of a chronic sleep disorder.

A Comprehensive Guide to Proteomics

Sejal Davla, PhD | 5 min read

Deconstructing concepts, approaches, and data analysis in proteomics workflows.

Infographic about SLiMs in SARS-CoV-2 Infection

Infographic: Short Protein Motifs’ Role in SARS-CoV-2 Infection

Conchita Fraguas Bringas and Jakob Nilsson | May 16, 2022 | 4 min read

Known as SLiMs, these stretches of up to 10 amino acids play notable roles in cell biology, including responses to viral invasion.

Spike Structure Gives Insight into SARS-CoV-2 Evolution

Abby Olena, PhD | Jul 16, 2020 | 3 min read

Researchers demonstrate that the SARS-CoV-2 spike protein is more stable and binds the human ACE2 receptor with much higher affinity than the spike protein of its closest known relative, bat coronavirus RaTG13.

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Probing Antibody Binding to the SARS-CoV-2 Spike Protein

The Scientist Creative Services Team in collaboration with Refeyn | 2 min read

Victor Yin will discuss two single-particle mass analysis methods that shed light on heterogenous, multimeric proteins and their interactions.

an illustration of the coronavirus with a world map in the background

Crowdsourced Protein Simulation Exceeds Supercomputers’ Power

Shawna Williams | Apr 15, 2020 | 2 min read

Folding@Home, currently focused on deciphering the workings of SARS-CoV-2, is the first project to have exascale-level computational muscle.

Nobel-Winning Biochemist Paul Boyer Dies

Shawna Williams | Jun 7, 2018 | 2 min read

The UCLA researcher was lauded for figuring out how ATP synthase works.

Understanding the Complexity of Cancer with Cryo-EM

The Scientist’s Creative Services Team and Thermo Fisher Scientific | 1 min read

Explore how researchers use cryogenic electron microscopy (cryo-EM) to identify how mutations affect protein signaling and function through structural or conformational changes.

Unknown Protein Structures Predicted

Ruth Williams | Jan 19, 2017 | 3 min read

Metagenomic sequence data boosts the power of protein modeling software to yield hundreds of new protein structure predictions.

Video: Inner Circle

The Scientist Staff | Nov 30, 2016 | 1 min read

See an animation that illustrates emerging insights into the inner ring structures of the nuclear pore complex.

Learn How to Accurately Determine Protein Conformation

Focus on Structure to Verify Protein Function

The Scientist’s Creative Services Team and RedShift Bio | 1 min read

Scientists analyze a therapeutic protein’s secondary structure to confirm drug efficacy and safety.

Fraudulent Paper Pulled

Bob Grant | Jan 5, 2016 | 1 min read

Nature retracts a study six years after an investigation found that the protein structures it reported were fabricated.

Getting Back in Shape

Karen Zusi | Dec 1, 2015 | 3 min read

Contrary to years of research suggesting otherwise, most aggregated proteins regain their shape and functionality following heat shock.

Using Nanopores to Sense and Sequence Proteins

The Scientist’s Creative Services Team | 1 min read

Aleksei Aksimentiev and Stefan Howorka discuss challenges in amino acid sensing with nanopores and approaches to design efficient protein sequencing technology.