Zeocin: Difference between revisions

From WikiMD's Wellness Encyclopedia

CSV import
Tags: mobile edit mobile web edit
 
CSV import
 
Line 1: Line 1:
'''Zeocin''' is a commonly used [[antibiotic]] in [[molecular biology]] and [[genetic engineering]] research. It is a member of the [[bleomycin/phleomycin]] class of antibiotics and is produced by the bacterium ''[[Streptomyces]] zeomicini''. Zeocin is used as a selective agent in [[transformation]] protocols to identify and isolate [[transgenic]] cells.
== Zeocin ==
 
[[File:Phleomycin_D1.svg|thumb|right|Chemical structure of Phleomycin D1, a component of Zeocin]]
 
'''Zeocin''' is a [[glycopeptide]] [[antibiotic]] and [[antitumor]] agent that belongs to the [[bleomycin]] family of antibiotics. It is produced by the bacterium ''[[Streptomyces verticillus]]'' and is used in [[molecular biology]] as a selective agent for [[gene expression]] studies.
 
== Structure and Composition ==
 
Zeocin is a complex of structurally related compounds, primarily consisting of [[phleomycin]]s. The active component, Phleomycin D1, is a [[copper]]-containing glycopeptide that binds to and cleaves [[DNA]]. This action is facilitated by the presence of [[oxygen]] and [[metal ions]], which are essential for its [[DNA cleavage]] activity.


== Mechanism of Action ==
== Mechanism of Action ==


Zeocin works by binding to [[DNA]] and causing double strand breaks. This leads to cell death unless the cell can repair the damage. In [[eukaryotic]] cells, the [[phosphotransferase]] enzyme, encoded by the ''[[Sh ble]]'' gene, can confer resistance to Zeocin. This enzyme dephosphorylates Zeocin, rendering it unable to bind to DNA and cause damage.
Zeocin exerts its effects by binding to DNA and causing [[double-strand breaks]]. This leads to [[cell death]] in both [[prokaryotic]] and [[eukaryotic]] cells. The DNA cleavage activity of Zeocin is dependent on the presence of [[copper ions]], which are coordinated by the antibiotic to generate reactive [[oxygen species]] that attack the DNA backbone.


== Use in Research ==
== Applications in Molecular Biology ==


In molecular biology and genetic engineering, Zeocin is used as a selective agent to isolate cells that have been successfully transformed with a plasmid carrying the ''Sh ble'' gene. After transformation, cells are grown in a medium containing Zeocin. Only those cells that have incorporated the plasmid and can express the ''Sh ble'' gene will survive, allowing for easy identification and isolation of transformed cells.
In [[molecular biology]], Zeocin is widely used as a selective agent in [[cell culture]] systems. It is particularly useful in the selection of [[transgenic]] cells that have been engineered to express a Zeocin resistance gene, such as the ''[[Sh ble]]'' gene from ''[[Streptoalloteichus hindustanus]]''. This gene encodes a protein that binds to Zeocin and inactivates it, allowing for the survival of transformed cells.


== Safety and Handling ==
== Safety and Handling ==


Zeocin is a potent antibiotic and should be handled with care. It is recommended to use personal protective equipment when handling Zeocin and to follow all safety guidelines for handling biohazardous materials.
Zeocin is a potent cytotoxic agent and should be handled with care in the laboratory. Appropriate [[safety precautions]] include the use of [[personal protective equipment]] such as [[gloves]], [[lab coats]], and [[eye protection]]. It should be stored at low temperatures to maintain its stability and activity.


== See Also ==
== Related Pages ==


* [[Antibiotic resistance]]
* [[Bleomycin]]
* [[Genetic transformation]]
* [[Antibiotic]]
* [[Molecular biology]]
* [[DNA damage]]
* [[Genetic engineering]]
* [[Gene expression]]
 
* [[Transgenic organism]]
== References ==
 
<references />


[[Category:Antibiotics]]
[[Category:Antibiotics]]
[[Category:Molecular biology]]
[[Category:Molecular biology techniques]]
[[Category:Genetic engineering]]
[[Category:DNA-binding substances]]
[[Category:Pharmacology]]
 
{{pharmacology-stub}}

Latest revision as of 03:53, 13 February 2025

Zeocin[edit]

Chemical structure of Phleomycin D1, a component of Zeocin

Zeocin is a glycopeptide antibiotic and antitumor agent that belongs to the bleomycin family of antibiotics. It is produced by the bacterium Streptomyces verticillus and is used in molecular biology as a selective agent for gene expression studies.

Structure and Composition[edit]

Zeocin is a complex of structurally related compounds, primarily consisting of phleomycins. The active component, Phleomycin D1, is a copper-containing glycopeptide that binds to and cleaves DNA. This action is facilitated by the presence of oxygen and metal ions, which are essential for its DNA cleavage activity.

Mechanism of Action[edit]

Zeocin exerts its effects by binding to DNA and causing double-strand breaks. This leads to cell death in both prokaryotic and eukaryotic cells. The DNA cleavage activity of Zeocin is dependent on the presence of copper ions, which are coordinated by the antibiotic to generate reactive oxygen species that attack the DNA backbone.

Applications in Molecular Biology[edit]

In molecular biology, Zeocin is widely used as a selective agent in cell culture systems. It is particularly useful in the selection of transgenic cells that have been engineered to express a Zeocin resistance gene, such as the Sh ble gene from Streptoalloteichus hindustanus. This gene encodes a protein that binds to Zeocin and inactivates it, allowing for the survival of transformed cells.

Safety and Handling[edit]

Zeocin is a potent cytotoxic agent and should be handled with care in the laboratory. Appropriate safety precautions include the use of personal protective equipment such as gloves, lab coats, and eye protection. It should be stored at low temperatures to maintain its stability and activity.

Related Pages[edit]

Retrieved from "https://wikimd.com/index.php?title=Zeocin&oldid=6291760"