We are independent & ad-supported. We may earn a commission for purchases made through our links.
Advertiser Disclosure
Our website is an independent, advertising-supported platform. We provide our content free of charge to our readers, and to keep it that way, we rely on revenue generated through advertisements and affiliate partnerships. This means that when you click on certain links on our site and make a purchase, we may earn a commission. Learn more.
How We Make Money
We sustain our operations through affiliate commissions and advertising. If you click on an affiliate link and make a purchase, we may receive a commission from the merchant at no additional cost to you. We also display advertisements on our website, which help generate revenue to support our work and keep our content free for readers. Our editorial team operates independently of our advertising and affiliate partnerships to ensure that our content remains unbiased and focused on providing you with the best information and recommendations based on thorough research and honest evaluations. To remain transparent, we’ve provided a list of our current affiliate partners here.
Biology

Our Promise to you

Founded in 2002, our company has been a trusted resource for readers seeking informative and engaging content. Our dedication to quality remains unwavering—and will never change. We follow a strict editorial policy, ensuring that our content is authored by highly qualified professionals and edited by subject matter experts. This guarantees that everything we publish is objective, accurate, and trustworthy.

Over the years, we've refined our approach to cover a wide range of topics, providing readers with reliable and practical advice to enhance their knowledge and skills. That's why millions of readers turn to us each year. Join us in celebrating the joy of learning, guided by standards you can trust.

What Is Eukaryotic Transcription?

By Victoria Blackburn
Updated: May 21, 2024
Views: 11,280
Share

Within all living cells, transcription is the process that produces strands of RNA, which are coded based on the DNA found within the cells. The RNA is then used to create proteins within the cytoplasm of a cell. Within different organisms, the process of transcription can differ slightly. This is particularly true when looking at eukaryotes and prokaryotes; the term eukaryotic transcription describes the process within eukaryotes.

The main difference between eukaryotic organisms and prokaryotic organisms is the presence of membrane bound organelles within the cells. Eukaryotes have membrane bound organelles, like the nucleus and mitochondria, while prokaryotes do not. This is one of the first and most obvious distinctions between prokaryotic and eukaryotic transcription, as it determines where the process occurs. Eukaryotic transcription occurs within the nucleus and mitochondria, as that is where the DNA is found within these types of cells. As a result, translation has to occur after transcription within eukaryotes as the RNA must be transported to the cytoplasm from within the nucleus.

Almost all eukaryotic DNA is found within the nucleus, so this is the primary location for most transcription. When the DNA is being transcribed, a particular region of the DNA is unwound so that it is single stranded. This region is called a cistron, and it eventually codes for a protein after transcription and translation. In most cases, there are three enzymes that are involved in eukaryotic transcription versus just one for prokaryotic transcription.

The enzymes that are involved in transcription are called RNA polymerases, and the three different ones are RNA Polymerase I (RNA Pol I), RNA Polymerase II (RNA Pol II) and RNA Polymerase III (RNA Pol III). The type of RNA determines which of the three polymerases are used during transcription. RNA Pol I transcribes ribosomal RNA (rRNA), which is used to create the ribosomes within the cytoplasm and is where translation occurs. Messenger RNA, the strands that provide the code for the proteins, is transcribed by RNA Pol II. The third enzyme, RNA Pol III, transcribes DNA into transfer RNA (tRNA), which is used to carry the appropriate amino acids to the ribosomes for creating the protein strands.

During eukaryotic transcription, one of the RNA polymerases moves along the single strand of DNA. As it does so, it creates a strand of RNA by adding an RNA nucleotide that is complementary to the one found within the strand of DNA. The RNA nucleotides are free floating within the nucleus and they are attracted to the single unbound strand of DNA. Once the cistron has been transcribed, the new strand of RNA must travel through pores in the nuclear membrane so that translation can occur in the cytoplasm.

Share
All The Science is dedicated to providing accurate and trustworthy information. We carefully select reputable sources and employ a rigorous fact-checking process to maintain the highest standards. To learn more about our commitment to accuracy, read our editorial process.
Discussion Comments
Share
https://www.allthescience.org/what-is-eukaryotic-transcription.htm
Copy this link
All The Science, in your inbox

Our latest articles, guides, and more, delivered daily.

All The Science, in your inbox

Our latest articles, guides, and more, delivered daily.