Ribosomal Collection

Bacterial ribosome. Computer model showing the secondary structure of a 30S (small) ribosomal sub-unit from the bacteria Thermus thermophilus

Human 80S ribosome F007 / 9902
Ribosomal subunit. Computer model showing the structure of the RNA (ribonucleic acid) molecules in an 80S (large) ribosomal sub-unit. Ribosomes are composed of protein and RNA

Human 80S ribosome F007 / 9898
Ribosomal subunit. Computer model showing the structure of the RNA (ribonucleic acid) molecules in an 80S (large) ribosomal sub-unit. Ribosomes are composed of protein and RNA

Ribosome, artwork F006 / 9206
Computer artwork of a ribosome. Ribosomes are protein particles that are found in cell cytoplasm. Each ribosome has a large and a small subunit

Ribosome, artwork F006 / 9194
Computer artwork of a ribosome. Ribosomes are protein particles that are found in cell cytoplasm. Each ribosome has a large and a small subunit

Bacterial ribosome and protein synthesis. Molecular model showing a bacterial ribosome reading an mRNA (messenger ribonucleic acid) strand (blue) and synthesising a protein

Ribosome, artwork C015 / 6780
Computer artwork of a ribosome. Ribosomes are protein particles that are found in cell cytoplasm. Each ribosome has a large and a small subunit

Ribosome, artwork C015 / 6774
Computer artwork of a ribosome. Ribosomes are protein particles that are found in cell cytoplasm. Each ribosome has a large and a small subunit

Ribosome, artwork C015 / 6769
Computer artwork of a ribosome. Ribosomes are protein particles that are found in cell cytoplasm. Each ribosome has a large and a small subunit

Ribosome and mRNA
Ribosome protein and mRNA. Computer artwork of a protein (L30, spirals) from the large subunit of a yeast ribosome, complexed with messenger ribonucleic acid (mRNA, cylindrical strand)

HIV replication cycle, diagram
HIV replication cycle. Diagram and magnified views showing the retroviral process by which the human immunodeficiency virus (HIV) replicates

Protein synthesis, artwork
peptid

Transcription factor and ribosomal RNA (rRNA). Molecular model showing the 6 zinc fingers of transcription factor IIIA (purple) bound to RNA (ribonucleic acid)

Ribosomal subunit, molecular model
Ribosomal subunit. Computer model showing the structure of the RNA (ribonucleic acid) molecules in a 50S (large) ribosomal sub-unit. Ribosomes are composed of protein (not seen) and RNA

RNA processing protein, molecular model
RNA processing protein, RNase MRP. Computer model showing the molecular structure of mitochondrial RNase MRP (mitochondrial RNA processing)

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"Unveiling the Intricate World Machinery: From Bacterial to Human" Exploring the intricate world of ribosomes, we delve into their fascinating structures and functions. Bacterial ribosome: A microscopic powerhouse responsible for protein synthesis in bacteria. Unraveling the secrets within human 80S ribosomes F007/9902 and F007/9898, crucial players in our cellular machinery. The dynamic duo: Transcription factor and ribosomal RNA working hand-in-hand to regulate gene expression. Embarking on a visual journey through artwork F006/9206, capturing the essence of a ribosome's elegance. Witnessing the beauty of molecular art with artwork F006/9194, portraying the complexity hidden within a single ribosome. Peering into the depths of rough endoplasmic reticulum through TEM imaging, revealing its close association with ribosomes. Marveling at bacterial ribosomes' role in protein synthesis - an essential process sustaining life itself. Delving deeper into understanding bacterial ribosomes through intricately detailed molecular models that shed light on their inner workings. Intriguingly complex yet vital to life as we know it, these captivating glimpses into the realm of "ribosomal" unveil a world teeming with scientific wonders waiting to be explored further.