Ribonucleoprotein Collection

Stylized rabies virus particles, the cause of the viral neuroinvasive disease acute encephalitis

Conceptual image of rabies virus

Conceptual image of lyssavirus. Lyssavirus is a genus of viruses belonging to the family Rhabdoviridae. This group of RNA viruses includes the rabies virus traditionally associated with the disease

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

Bacterial ribosome, molecular model F006 / 9332
Bacterial ribosome. Molecular model of a 30S (small) ribosomal sub-unit from the bacteria Thermus thermophilus. Ribosomes are composed of protein and RNA (ribonucleic acid)

Archaeon ribosome, molecular model F006 / 9328
Archaeon ribosome. Molecular model showing the structure of a 50S (large) ribosome from the archaeon Haloarcula marismortui. Ribosomes are composed of protein and RNA (ribonucleic acid)

Hepatitis D virus ribozyme complex F006 / 9295
Hepatitis D virus ribozyme complex. Molecular model showing an RNA (ribonucleic acid) strand from an Hepatitis delta (Hepatitis D) virus genomic ribozyme, complexed with a ribonucleoprotein

Influenza virus, artwork C016 / 8345
This image may not be used in educational posters Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion)

Signal recognition particle RNA molecule. Computer model showing the molecular structure of the 2 A structure of helix 6 of the human signal recognition particle (SRP) RNA (ribonucleic acid)

Hepatitis D virus ribozyme complex. Computer model showing an RNA (ribonucleic acid) strand from an Hepatitis delta (Hepatitis D) virus genomic ribozyme, complexed with a ribonucleoprotein

Heterogeneous nuclear ribonucleoprotein. Molecular model of a heterogeneous nuclear ribonucleoprotein (hnRNP, orange) complexed with an RNA (ribonucleic acid, yellow) molecule

Influenza nucleoprotein, molecular model
Influenza nucleoprotein. Molecular model of the nucleoprotein from an influenza A virus. This protein forms a complex with the influenza virus RNA (ribonucleic acid) genome

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 Intricacies of Ribonucleoprotein: A Fascinating World Within Viruses and Cells" In this captivating conceptual image, stylized rabies virus particles take center stage, showcasing the intricate nature of ribonucleoproteins. These tiny entities play a crucial role in viral replication and gene expression. Zooming in further, we encounter a mesmerizing conceptual image of the rabies virus itself. Its unique structure is composed of RNA molecules tightly bound to proteins, forming ribonucleoprotein complexes that enable its survival and proliferation. But viruses are not the only players in this molecular dance. Human 80S ribosomes come into focus next – F007/9902 and F007/9898 reveal their complex architecture responsible for synthesizing proteins within our cells. Bacterial ribosomes (F006/9332) also make an appearance, highlighting the diversity of these essential cellular machines across different organisms. Delving deeper into the microbial world, we encounter archaeon ribosomes (F006/9328), shedding light on how these ancient organisms utilize ribonucleoproteins for their own protein synthesis processes. The intrigue continues as we explore another fascinating aspect – hepatitis D virus ribozyme complex (F006/9295). This remarkable example showcases how certain RNA molecules can catalyze chemical reactions within cells, expanding our understanding of both viral infections and cellular functions. Lastly, an artwork depicting influenza virus (C016/8345) reminds us that even though viruses can cause harm to humans, they possess awe-inspiring complexity at a microscopic level. Ribonucleoproteins serve as vital connectors between genetic material and proteins in various biological contexts. Through these stunning images, we catch a glimpse into their diverse roles within viruses like rabies or hepatitis D and fundamental cellular processes mediated by human or bacterial ribosomes.