Single Stranded Collection

Single stranded DNA-binding protein F006 / 9733
Single stranded DNA-binding protein (SSBP). Molecular model of a protein that binds to the single stranded DNA (deoxyribonucleic acid) in human mitochondria

Eukaryotic cell nucleus, artwork
Eukaryotic cell nucleus. Artwork of the internal structure and contents of the nucleus of a eukaryotic cell. The nucleus has been sectioned in half

MERS coronavirus, artwork C016 / 3611
MERS coronavirus proteins. Cutaway computer model showing the protein structure of a MERS coronavirus particle (virion). MERS (Middle East respiratory syndrome)

SARS coronavirus, artwork C016 / 3054
SARS coronavirus proteins. Cutaway computer model showing the protein structure of a SARS coronavirus particle (virion). SARS (severe acute respiratory syndrome)

SARS coronavirus, artwork C016 / 3053
SARS coronavirus proteins. Cutaway computer model showing the protein structure of a SARS coronavirus particle (virion). SARS (severe acute respiratory syndrome)

Viral RNA replication cycle, artwork
Viral RNA replication cycle. Computer artwork showing the three stages of the replication cycle that forms double-stranded DNA (deoxyribonucleic acid)

Single-stranded DNA, artwork
Point mutation. Computer artwork of a single strand of DNA (deoxyribonucleic acid) with a point mutation (illuminated). A point mutation is caused by the replacement of a single base nucleotide (red)

Hepatitis E virus particle, artwork
Hepatitis E virus particle, computer artwork. This virus is a non-enveloped, single-stranded RNA (ribonucleic acid) virus that causes hepatitis E. Hepatitis is an inflammation of the liver

La Crosse encephalitis virus, TEM
La Crosse encephalitis virus. Coloured transmission electron micrograph (TEM) of La Cross (LAC) encephalitis virus particles (virions)

California encephalitis virus, TEM
California encephalitis virus. Coloured transmission electron micrograph of California encephalitis virus particles (virions)

Coxsackie B3 virus particles, TEM
Coxsackie B3 virus particles, coloured transmission electron micrograph (TEM). Each Coxsackie B3 virus particle (yellow) consists of a non-enveloped icosahedral (20-sided) protein capsid (coat)

Single stranded DNA-binding protein (SSBP). Molecular model showing the secondary and tertiary structures of a protein that binds to the single stranded DNA (deoxyribonucleic acid)

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"Exploring the Intricacies of Single Stranded DNA: From Binding Proteins to Viral Replication" In this captivating artwork, we delve into the fascinating world of single-stranded DNA (ssDNA) and its multifaceted interactions. The spotlight shines on the Single stranded DNA-binding protein F006 / 9733, a crucial player in maintaining genomic stability. Peering through the lens of a transmission electron microscope (TEM), Sin nombre virus particles come into view. These tiny entities hold immense significance as they cause hantavirus pulmonary syndrome in humans. Their distinct morphology is beautifully captured, revealing their sinuous nature. Moving further, our artistic representation takes us inside an eukaryotic cell nucleus - a bustling hub where genetic material resides. This intricate artwork showcases the delicate dance between ssDNA and various cellular components. The MERS coronavirus and SARS coronavirus take center stage next, depicted with meticulous detail. These notorious viruses have wreaked havoc globally, emphasizing the importance of understanding their single-stranded RNA genomes for effective therapeutic interventions. A mesmerizing depiction of viral RNA replication cycle follows suit - an elaborate process that allows viruses to hijack host machinery for their own propagation. This captivating artwork unravels the intricacies behind viral replication strategies employed by diverse pathogens. Our visual journey concludes with a stunning portrayal of single-stranded DNA itself - an elegant structure that holds immense potential for scientific exploration and technological advancements. Lastly, we encounter Hepatitis E virus particle artfully rendered before our eyes. Its presence reminds us that even seemingly simple ssDNA can harbor significant pathogenicity when unleashed upon unsuspecting hosts. This collection of captivating images invites us to appreciate both the beauty and complexity inherent within single-stranded DNA systems while highlighting their pivotal roles in biology and disease mechanisms.