Molecular Genetics Commons^™

Analysis Of Ssa4 Reporter Expression By Q-Pcr, Susveen Sharanshi, Rebecca Adams

Belmont University Research Symposium (BURS)

The synthesis of genome-encoded proteins via mRNA translation is integral to cell survival. In eukaryotes, such as S. cerevisiae, the mRNA that is produced in the nucleus must be exported to the cytoplasm for translation to occur, and this process is highly regulated. Specifically, the export of mRNA occurs via travel through nuclear pore complexes (NPCs), which are selective doorways embedded in the nuclear envelope. During cellular stress, such as heat shock, the cell needs to regulate gene expression to permit survival, and mRNA export is one step at which this occurs. At these high temperatures, a cell’s proteins …

Generating Improved Rna Localization Reporters Using The U1hp-U1a System, Ryan Dannemiller, Rebecca Adams Phd

Belmont University Research Symposium (BURS)

Generating Improved RNA Localization Reporters Using the U1hp-U1A System

Ryan Dannemiller, Rebecca Adams, PhD. Belmont University, Nashville, TN.

Messenger mRNA (mRNA) is genetic material that is used to bridge between DNA in the nucleus and protein-making machinery in the cytoplasm of eukaryotic cells. The processes of transcription and translation are physically separated, so the localization of mRNA dictates whether the encoded protein can be generated. In order to observe the localization of specific transcripts in response to stimuli, tools are needed to track location of mRNA. For example, in response to heat shock and ethanol stress, most mRNA is retained …

Identifying Adaptor Proteins For Selective Mrna Export In S. Cerevisiae, Chloe Baker, Rebecca Adams

Science University Research Symposium (SURS)

The export of mature mRNA from the nucleus of the cell to the cytoplasm is crucial for a cell’s survival, as this process is necessary to produce proteins encoded by these transcripts. In S. cerevisiae (yeast) cells, a protein known as Mex67 must bind to the mRNA while it’s in the nucleus so it can cross through the nuclear pore complex (NPC). Mex67 cannot bind to the mRNA directly, instead it needs to be accompanied by adaptor proteins to aid it in getting across the NPC. Stress conditions such as heat shock interferes with the function of these adaptor …

Expression Of Tgf-Beta Ligands During Sclerotome Development, Estela Williams

Belmont University Research Symposium (BURS)

During early embryogenesis in vertebrates, somites are formed by the segmentation of the presomitic mesoderm (Gomez, Ozbudak, Wunderlich, Baumann. Lewis and Pourquie 2008). The somite possesses several domains within it and the ventral part of the somite is called the sclerotome. The sclerotome gives rise to the axial skeleton and tendons. Twist 1b and Twist 2 are genes that are expressed in the sclerotome during axial skeletal development. Our experiments were developed to help understand the roles of Twist1b and Twist2 in tendon development. By utilizing microinjection to alter gene expression, the Twist 1b and Twist 2 genes can be …

Enhancement Of Nkx3.2 Expression After Twist1b And Twist2 Knockdown In Zebrafish, Peyton Yearick

Belmont University Research Symposium (BURS)

Somitogenesis is a developmental event patterned by cellular signaling during gastrulation, ending around 30-hours post fertilization. Somites are segmented regions of mesoderm along the dorsal side of the body which form paraxial mesoderm in Danio rerio, zebrafish. Somite development results in the formation of the subcompartment called sclerotome, which differentiates to form the axial skeleton and associated tendons (Stickney et al., 2000). Further differentiation allows for sclerotome progenitor cell to develop into bone, muscle, tendon, and cartilage through sclerotome migration along the mesoderm. A portion of sclerotome cells migrate anterior towards the neural tube, where they will form the …

Using Crispr/Cas9 Gene Editing To Remove Twist2 To Determine Its Role During Somite Development In Zebrafish, Caleb Holdener

Belmont University Research Symposium (BURS)

Embryonic Mesoderm is a precursor to various types of tissues, such as the somatic mesoderm. Somites are a segmented tissue that gives rise to the sclerotome in vertebrates. This sclerotome further develops into the axial skeleton (Stickney, Barresi, and Devoto 2000). Somites are easily observable under low power microscopy during fish development. In fish, great strides have been made in studying the developmental fate of somites (Stoiber, Haslett, and Sänger 1999; Stickney, Barresi, and Devoto 2000). Zebrafish have been studied in many labs due to their similarities with higher vertebrates. These advantages include their inexpensive cost of care, external fertilization, …

Utilizing Crispr/Cas9 Gene Editing Determine The Role Of Cnr1 During Zebrafish Development, Ellis Chase

Belmont University Research Symposium (BURS)

The CRISPR-Cas 9 system is a process used to create mutations, insertions, or deletions within a desired gene. It can be used to create mutant organisms necessary to study the function and impact of a particular gene¹. Cannabinoids are active chemicals found in cannabis, the most common of which being cannabinol (CBD)². Cannabinoid receptors are an integral part of the endocannabinoid system, recognizing cannabinoid signals to promote physiological processes like pain sensation, memory, mood, and appetite³. Studying these cannabinoid receptors can provide insight into how cannabis can affect bodily processes.

Zebrafish are small translucent …

Utilizing Crispr/Cas9 Gene Editing Determine The Role Of Cnr1 During Zebrafish Development, Camme Sells

Belmont University Research Symposium (BURS)

In a world where cannabinoids are being used more frequently as for medicinal purposes, the importance for research on cannabinoid biology is steadily increasing. The goal of this study was to gain a greater understanding of the effect cannabinoids have on developing zebrafish embryos. Work in this area of developmental biology could give way to an understanding of the safety of a human fetus during pregnancy with a mother who uses cannabis medicinal therapy. The CRISPR/Cas 9 system was utilized in this study to genetically edit the zebrafish embryo genome to remove the function of the Cannabinoid Receptor 1 ( …

Scleraxis Expression Within The Axial Tendon Population In Zebrafish, Jessica Bernaba

Belmont University Research Symposium (BURS)

Zebrafish are a well-established model organism for vertebrate development. During embryonic development, a pattern of segmentation of mesoderm yields somites, which give rise to specific cell fates. Somites, bilateral blocks of mesoderm along the neural tube in developing vertebrate embryos, subdivide into sclerotome as the vertebrate matures. Depending on migratory position, sclerotome cells give rise to various components of the axial skeletal system, including bone, cartilage, and tendon. Each fate is determined by gene expressions within the sclerotome and occupy distinct domains of the body plan. By method of in situ hybridization, we studied the expression of the scleraxis ( …

Exploring The Role Of Tgfbr2 During Zebrafish Sclerotome Development, Nooralhuda Feron

Belmont University Research Symposium (BURS)

Zebrafish, Danio rerio, are used as a source model organism for human development of the tendons, bones, and ligaments. The sclerotome is an embryonic structure known as the somite. The sclerotome gives rise to axial bones and tendons. During development, different genes are involved and affect how these skeletal tissues develop. Specifically, within this project, the effects of Twist1b and Twist2 were studied to see their effects on tendon formation, as they are expressed within the developing sclerotome tissue. Transforming growth factor beta receptor type-2 (Tgfbr2) has been shown to be involved in tendon formation (Subramanian, Kanzaki, Galloway and …

Twist1b Knockout Generation In Zebrafish Using Crispr-Cas9, Grace Hurley

Belmont University Research Symposium (BURS)

The Twist gene is found in numerous organisms, including humans, mice and zebrafish (Yeo et al., 2009). It is a vital gene in development and is needed for the organism to survive (Yeo et al., 2009). Specifically, the Twist gene family aids in specialization and differentiation of mesodermal cells, telling somites, segmented blocks of mesoderm, what to become (Germanguz et al., 2007). Over time, the Twist gene has duplicated into paralogs, each having differences in their functions (Germanguz et al., 2007). Twist1b is a protein coding gene that is a paralog to the human Twist1 gene (ZFIN, 2020). In zebrafish, …