Kinetochore
Influenza Virus
Bacteriophage T4 Infection
HIV-Infected Cell
Caulobacter Polar Microdomain
HIV Vaccine
Insulin Release
JCVI-syn3A Minimal Cell
Casein Micelle and Fat Globule in Milk
Escherichia coli Bacterium
Cellulose Synthase
Myoglobin in a Whale Muscle Cell
Collagen and Extracellular Matrix
CytoSkeleton
Transfer RNA and Gag Protein
RecA and DNA
Model of a Mycoplasma Cell
Phage-based COVID-19 Vaccine
SARS-CoV-2 and Neutralizing Antibodies
Red Blood Cell Cytoskeleton
SARS-CoV-2 mRNA Vaccine
SARS-CoV-2 Fusion
Respiratory Droplet
Coronavirus Life Cycle
Myelin
Immunological Synapse
Coronavirus
Influenza Vaccine
Poliovirus Neutralization
Lipid Droplets
Measles Virus Proteins
Last Universal Common Ancestor
Abiogenesis
Excitatory and Inhibitory Synapses
Insulin Action
Zika Virus
Ebola Virus
Chloroplast
Autophagy
Mycoplasma mycoides
Vascular Endothelial Growth Factor (VegF) Signaling
Biosites: Cytoplasm
Biosites: Basement Membrane
Biosites: Red Blood Cell
Biosites: Blood Plasma
Biosites: Muscle
Biosites: Nucleus
Blood
HIV in Blood Plasma
Escherichia coli

Molecular Landscapes by David S. Goodsell

JCVI-syn3A Minimal Cell, 2022

Acknowledgement: Illustration by David S. Goodsell, RCSB Protein Data Bank. doi: 10.2210/rcsb_pdb/goodsell-gallery-042

JCVI-syn3A is a minimal cell developed at the J. Craig Venter Institute, with a reduced genome of 493 genes. It was developed in several steps, starting from Mycoplasma mycoides and successively removing non-essential genes. In the most recent step, from Syn3.0 to Syn3A, 19 genes were added back to the cell resulting in more stable morphology and division of the cells. Syn3A cells provide an attractive laboratory for exploring the central processes needed for life and abundant information is available for them, including an extensively-annotated genome, a proteome with molecular abundances, and cryo-EM images of individual cells. The illustration integrates this experimental data to create a cross-section through an entire JCVI-syn3A cell, showing all macromolecules.

The cell is depicted just after beginning division. DNA is in bright yellow, DNA-associated proteins are in tan, and DNA-associated enzymes (polymerases and topoisomerases) are in orange. The membrane is in green, with membrane-spanning proteins in a darker shade and lipoproteins in bluer green. RNA, including ribosomes, tRNA and mRNA, are in shades of magenta, and protein synthesis factors are in purple. Enzymes are in shades of blue, with a cooler cobalt blue for enzymes interacting with the protein synthesis machinery, and metabolic enzymes in shades of turquoise.

A pdf document is available for download with a detailed key of the molecules that are depicted in the illustration and information on scientific sources for the structures.

A broader look appears in the article "A Journey to the Center of Our Cells" published in the March 7 issue of The New Yorker.