My Account Log in

1 option

Detecting selection on noncoding nucleotide variation : methods and applications / Yang Ding.

LIBRA R001 2016 .D584
Loading location information...

Available from offsite location This item is stored in our repository but can be checked out.

Log in to request item
Format:
Book
Manuscript
Thesis/Dissertation
Author/Creator:
Ding, Yang, author.
Contributor:
Plotkin, Joshua B., degree supervisor, degree committee member.
Gregory, Brian D., degree committee member.
Kim, Junhyong, degree committee member.
Poethig, R. Scott, degree committee member.
Schmidt, Paul S., degree committee member.
Sniegowski, Paul D., degree committee member.
University of Pennsylvania. Department of Biology, degree granting institution.
Language:
English
Subjects (All):
Penn dissertations--Biology.
Biology--Penn dissertations.
Local Subjects:
Penn dissertations--Biology.
Biology--Penn dissertations.
Physical Description:
ix, 93 leaves : illustrations (some color) ; 29 cm
Production:
[Philadelphia, Pennsylvania] : University of Pennsylvania, 2016.
Summary:
There has been a long tradition in molecular evolution to study selective pressures operating at the amino-acid level. But protein-coding variation is not the only level on which molecular adaptations occur, and it is not clear what roles non-coding variation has played in evolutionary history, since they have not yet been systematically explored. In this dissertation I systematically explore several aspects of selective pressures of noncoding nucleotide variation:
The first project (Chapter 2) describes research on the determinants of eukaryotic translation dynamics, which include selection on non-coding aspects of DNA variation. Deep sequencing of ribosome-protected mRNA fragments and polysome gradients in various eukaryotic organisms have revealed an intriguing pattern: shorter mRNAs tend to have a greater overall density of ribosomes than longer mRNAs. There is debate about the cause of this trend. To resolve this open question, I systematically analysed 5' mRNA structure and codon usage patterns in short versus long genes across 100 sequenced eukaryotic genomes. My results showed that compared with longer ones, short genes initiate faster, and also elongate faster. Thus the higher ribosome density in short eukaryote genes cannot be explained by translation elongation. Rather it is the translation initiation rate that sets the pace for eukaryotic protein translation. This work was followed by modelling studies of translation dynamics in a yeast cell.
Chapter 3 concerns detecting selective pressures on the viral RNA structures. Most previous research on RNA viruses has focused on identifying amino-acid residues under positive or purifying selection, whereas selection on RNA structures has received less attention. I developed algorithms to scan along the viral genome and identify regions that exhibit signals of purifying or diversifying selection on RNA structure, by comparing the structural distances between actual viral RNA sequences against an appropriate null distribution. Unlike other algorithms that identify structural constraints, my approach accounts for the phylogenetic relationships among viral sequences, as well the observed variation in amino-acid sequences. Applied to Influenza viruses, I found that a significant portion of influenza viral genomes have experienced purifying selection for RNA structure, in both the positive- and negative-sense RNA forms, over the past few decades; and I found the first evidence of positive selection on RNA structure in specific regions of these viral genomes.
Overall, the projects presented in these chapters represent a systematic look at several novel aspects of selection on noncoding nucleotide variation. These projects should open up new directions in studying the molecular signatures of natural selection, including studies on interactions between different layers at which selection may operate simultaneously (e.g. RNA structure and protein sequence).
Notes:
Ph. D. University of Pennsylvania 2016.
Department: Biology.
Supervisor: Joshua B. Plotkin.
Includes bibliographical references.
OCLC:
961021897

The Penn Libraries is committed to describing library materials using current, accurate, and responsible language. If you discover outdated or inaccurate language, please fill out this feedback form to report it and suggest alternative language.

Find

Home Release notes

My Account

Shelf Request an item Bookmarks Fines and fees Settings

Guides

Using the Find catalog Using Articles+ Using your account