![By BMW Werk Leipzig (http://bmw-werk-leipzig.de) [CC BY-SA 2.0 de], via Wikimedia Commons](https://s36063.pcdn.co/wp-content/uploads/2016/11/rsz_bmw_leipzig_media_050719_download_karosseriebau_max.jpg)
In the fast-paced life of a bacterium, the ability to manufacture proteins quickly and efficiently is crucial. In these organisms, mRNAs—the templates for building proteins—have a string of bases near the start called the Shine-Dalgarno (SD) sequence. This motif increases the rate at which translation is initiated. Some results suggest that the presence of SD sequences further into an mRNA, in the coding region, actually slow the elongation rate—but work by a few other groups does not support this claim.
In the November issue of G3, Yang et al. reason that if SD sequences do slow elongation, there should be fewer of the sequences than would be expected (given codon use biases) in the coding regions of bacterial mRNAs. Using data from many species of bacteria, they found that not only are SD sequences rarer in coding regions, but they are also even more depleted in the genes that are most expressed—and the effect was greatest in the bacteria with the shortest generation times.
In addition to slowing elongation, there are a few other possible explanations for the dearth of SD sequences in coding regions. The sequences may be mistaken by ribosomes for translation start sites, resulting in truncated proteins, or they may cause ribosomes to slip up and result in a frameshift. It’s also possible that the ribosomes get stuck on the SD sequences, leading to a reduced pool of ribosomes available to start translation.
If SD sequences are so detrimental in this context, it might seem strange that the coding regions of bacterial mRNAs would have any SD sequences at all. But natural selection typically keeps bacterial genomes small—a trim genome allows bacteria to replicate quickly and potentially beat out its competitors—so it’s possible that the initiation sites for a gene might need to overlap with the end of the prior gene in the operon. And despite being potentially harmful, random mutations ensure that some of these misplaced sequences will arise by chance.
An important implication of this work is that the presence or absence of SD sequences within coding regions is a significant modulator of translation efficiency. So far, much research has been dedicated to codon usage as the primary contributor to translation speed, since codons calling for rarer tRNAs might take longer to be translated. But according to these researchers’ results, SD sequences in coding regions also have a significant effect. This implies that when designing artificial genes to insert into bacteria, researchers might want to avoid including SD sequences if they hope to get the highest protein yield. Thinking like a bacterium may not sound like a good strategy for a scientist, but after being molded by billions of years of competition with their fellow microbes, these organisms do seem to have learned a trick or two.
CITATION:
Yang, C.; Hockenberry, A.; Jewett, M.; Amaral, L. Depletion of Shine-Dalgarno Sequences within Bacterial Coding Regions Is Expression Dependent.
G3, 6(11), 3467–3474.
DOI:10.1534/g3.116.032227
http://www.g3journal.org/content/6/11/3467
Nicole Haloupek is a freelance science writer and a recent graduate of UC Berkeley's molecular and cell biology PhD program.
View all posts by Nicole Haloupek »Read more in
-
In Memoriam: Ellsworth Herman Grell (1932–2023), a pioneer of Drosophila genome engineering and annotation
Ellsworth (Ed) Grell blessed the Drosophila community through three enduring legacies: as a pioneer of chromosome mechanics, as a primary organizer and synthesizer of genetic knowledge in Drosophila, and as a graceful mentor to those fortunate to have known him personally. Ed grew up in rural Nebraska, completed his undergraduate studies at Iowa State, and…
-
Congratulations to the #Fungal24 Poster Award winners!
We are pleased to announce the recipients of the GSA Poster Awards for posters presented at the 32nd Fungal Genetics Conference! Undergraduate and graduate student members of GSA were eligible for the awards, and a hard-working team of judges made the determinations. Congratulations to all! Felicia Ebot Ojong, The University of Georgia My research is focused…
-
Poster presentation tips for TAGC 2024
You’ve been selected to present a poster at The Allied Genetics Conference 2024 in March—you’ve celebrated, made plans to attend, now what? This is an exciting opportunity to showcase your research and engage with fellow members of the genetics community, so you want to make sure you’re prepared. We wanted to offer you some tips…
-
Maximize your TAGC 2024 experience
A guide to all that National Harbor & DC have to offer Are you joining us for The Allied Genetics Conference 2024 in March? Make the most of your #TAGC24 experience in National Harbor! We know the science will keep you busy, but you deserve to unwind and have some fun, so we’ve curated a…
-
Early Career Leadership Spotlight: Sarah Petrosky
We’re taking time to get to know the members of the GSA’s Early Career Scientist Committees. Join us to learn more about our early career scientist advocates. Sarah PetroskyMultimedia SubcommitteeUniversity of Pittsburgh Research Interest I am interested in understanding adaptation that has been happening recently in populations by dissecting the ways that genes underlying an adaptation…
-
TAGC 2024 Early Career Award Winners
GSA is pleased to announce the winners of the early career awards presented at The Allied Genetics Conference 2024. These awards are specific to particular TAGC communities and recognize early career scientists’ outstanding work on their respective research organisms. The awardees will present their talks in keynote sessions at TAGC 2024. Don’t miss the opportunity…
-
Preeminent geneticists recognized with revamped GSA Awards
In 2022, GSA’s Board of Directors launched an audit to review the five major awards conferred by the Society. Today, we are thrilled to announce the recipients of the reimagined GSA Awards, including the new Genetics Society of America Early Career Medal. The scientists honored this year are recognized by their peers for their outstanding…
-
Fly Board funds outreach programs to spread the word about Drosophila research
In 2020, the Fly Board voted to use part of its reserve fund to support efforts to increase trainee participation as well as equity and diversity in the Drosophila community. An awards committee decides how the money will be spent each year, and from 2020–2022, the committee posted a very broad call for applications from…
-
New members of the GSA Board of Directors: 2024–2026
We are pleased to announce the election of four new leaders to the GSA Board of Directors: 2024 Vice President/2025 President Brenda Andrews Professor, University of Toronto It’s an honor to continue my association with the Society by serving as Vice President of the Board of Directors. I have broad knowledge of the ongoing activities…
-
Parrot plumage study aids breeders and endangered natural populations
Yellow coloration is maladaptive in the wild but prized by breeders. People have long been fascinated with birds, which exhibit one of the widest ranges of coloration among vertebrates. Parrots, in particular, have captivated humans by their ability to mimic human speech and spectacular plumage. Brightly colored feathers are used primarily to attract mates, intimidate…
-
Early Career Leadership Spotlight: Sarah Gilmour
We’re taking time to get to know the members of the GSA’s Early Career Scientist Committees. Join us to learn more about our early career scientist advocates. Sarah GilmourMultimedia SubcommitteeStowers Institute for Medical Research Research Interest Questions of evolution have always fascinated me. I am extremely fortunate to be starting out my research career in a…