Sangyun Jeong scite author profile

Understanding the mechanisms underlying the morphological divergence of species is one of the central goals of evolutionary biology. Here, we analyze the genetic and molecular bases of the divergence of body pigmentation patterns between Drosophila yakuba and its sister species Drosophila santomea. We found that loss of pigmentation in D. santomea involved the selective loss of expression of the tan and yellow pigmentation genes. We demonstrate that tan gene expression was eliminated through the mutational inactivation of one specific tan cis-regulatory element (CRE) whereas the Tan protein sequence remained unchanged. Surprisingly, we identify three independent loss-of-function alleles of the tan CRE in the young D. santomea lineage. We submit that there is sufficient empirical evidence to support the general prediction that functional evolutionary changes at pleiotropic loci will most often involve mutations in their discrete, modular cis-regulatory elements.

show abstract

Regulation of Body Pigmentation by the Abdominal-B Hox Protein and Its Gain and Loss in Drosophila Evolution

Jeong

Rokas

Carroll

2006

Cell

223

304

View full text Add to dashboard Cite

Hox genes have been implicated in the evolution of many animal body patterns, but the molecular events underlying trait modification have not been elucidated. Pigmentation of the posterior male abdomen is a recently acquired trait in the Drosophila melanogaster lineage. Here, we show that the Abdominal-B (ABD-B) Hox protein directly activates expression of the yellow pigmentation gene in posterior segments. ABD-B regulation of pigmentation evolved through the gain of ABD-B binding sites in a specific cis-regulatory element of the yellow gene of a common ancestor of sexually dimorphic species. Within the melanogaster species group, male-specific pigmentation has subsequently been lost by at least three different mechanisms, including the mutational inactivation of a key ABD-B binding site in one lineage. These results demonstrate how Hox regulation of traits and target genes is gained and lost at the species level and have general implications for the evolution of body form at higher taxonomic levels.

show abstract

Adipocyte Accumulation in Penile Corpus Cavernosum of the Orchiectomized Rabbit: A Potential Mechanism for Veno‐occlusive Dysfunction in Androgen Deficiency

Traish

Toselli

Jeong

et al. 2005

Journal of Andrology

128

View full text Add to dashboard Cite

Androgens are deemed to be critical for the development, growth, and maintenance of penile tissue as well as for erectile function. Androgens are also reported to inhibit differentiation of stroma progenitor cells into adipocytes and promote differentiation into smooth muscle. The objective of this study was to investigate whether androgen deprivation results in accumulation of adipocytes in the corpus cavernosum. Mature, New Zealand white male rabbits were subjected to sham surgery (control) or orchiectomy. Two weeks after surgery, erectile function was assessed by monitoring changes in intracavernosal blood pressure (ICP) in response to pelvic nerve stimulation. All ICP measurements were normalized to the mean systemic arterial blood pressure. In parallel studies, penile cross sections from control and orchiectomized rabbits were fixed and stained with either Masson's trichrome or hematoxylin and eosin to assess smooth muscle and connective tissue content. Alternatively, tissue sections were stained with Toluidine blue to assess accumulation of fat-containing cells. Orchiectomy resulted in loss of erectile function and penile atrophy, associated with reduced trabecular smooth muscle and increased connective tissue content. Most strikingly, tissue from orchiectomized animals exhibited accumulation of fat-containing cells (adipocytes) in the subtunical region of the corpus cavernosum. We hypothesize that androgen deprivation promotes differentiation of progenitor stroma cells into an adipogenic lineage producing fat-containing cells, thus altering erectile function.

show abstract

The Control of Semaphorin-1a-Mediated Reverse Signaling by Opposing Pebble and RhoGAPp190 Functions in Drosophila

Jeong

Juhaszova

Kolodkin

2012

Neuron

View full text Add to dashboard Cite

SUMMARY Transmembrane semaphorins (Semas) serve evolutionarily conserved guidance roles, and some function as both ligands and receptors. However, the molecular mechanisms underlying the transduction of these signals to the cytoskeleton remain largely unknown. We have identified two direct regulators of Rho family small GTPases, pebble (a Rho guanine nucleotide exchange factor (GEF)) and RhoGAPp190 (a GTPase activating protein (GAP)), that show robust interactions with the cytoplasmic domain of the Drosophila Sema-1a protein. Neuronal pebble and RhoGAPp190 are required to control motor axon defasciculation at specific pathway choice points and also for target recognition during Drosophila neuromuscular development. Sema-1a–mediated motor axon defasciculation is promoted by pebble and inhibited by RhoGAPp190. Genetic analyses show that opposing pebble and RhoGAPp190 functions mediate Sema-1a reverse signaling through the regulation of Rho1 activity. Therefore, pebble and RhoGAPp190 transduce transmembrane semaphorin–mediated guidance cue information that regulates the establishment of neuronal connectivity during Drosophila development.

show abstract

Modulation of Rat Vaginal Blood Flow and Estrogen Receptor by Estradiol

Kim

Jeong

et al. 2004

Journal of Urology

View full text Add to dashboard Cite

show abstract

An In Vivo Rat Model to Investigate Female Vaginal Arousal Response

et al. 2004

View full text Add to dashboard Cite

show abstract

Fringe forms a complex with Notch

Jeong

Bae

et al. 2000

Nature

View full text Add to dashboard Cite

The Fringe protein of Drosophila and its vertebrate homologues function in boundary determination during pattern formation. Fringe has been proposed to inhibit Serrate-Notch signalling but to potentiate Delta-Notch signalling. Here we show that Fringe and Notch form a complex through both the Lin-Notch repeats and the epidermal growth factor repeats 22-36 (EGF22-36) of Notch when they are co-expressed. The Abruptex59b (Ax59b) and AxM1 mutations, which are caused by missense mutations in EGF repeats 24 and 25, respectively, abolish the Fringe-Notch interaction through EGF22-36, whereas the l(1)N(B) mutation in the third Lin-Notch repeat of Notch abolishes the interaction through Lin-Notch repeats. Ax mutations also greatly affect the Notch response to ectopic Fringe in vivo. Results from in vitro protein mixing experiments and subcellular colocalization experiments indicate that the Fringe-Notch complex may form before their secretion. These findings explain how Fringe acts cell-autonomously to modulate the ligand preference of Notch and why the Fringe-Notch relationship is conserved between phyla and in the development of very diverse structures.

show abstract

Evolution of the tan Locus Contributed to Pigment Loss in Drosophila santomea: A Response to Matute et al.

Rebeiz

Ramos-Womack

Jeong

et al. 2009

Cell

View full text Add to dashboard Cite

We have shown previously that the loss of abdominal pigmentation in D. santomea relative to its sister species D. yakuba resulted, in part, from cis-regulatory mutations at the tan locus. Matute et al. claim, based solely upon extrapolation from genetic crosses of D. santomea and D. melanogaster, a much more divergent species, that at least four X chromosome regions but not tan are responsible for pigmentation differences. Here, we provide additional evidence from introgressions of D. yakuba genes into D. santomea that support a causative role for tan in the loss of pigmentation and present analyses that contradict Matute et al.'s claims. We discuss how the choice of parental species and other factors affect the ability to identify loci responsible for species divergence, and we affirm that all of our previously reported results and conclusions stand.

show abstract

12 3 4

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Sangyun Jeong

The Evolution of Gene Regulation Underlies a Morphological Difference between Two Drosophila Sister Species

Regulation of Body Pigmentation by the Abdominal-B Hox Protein and Its Gain and Loss in Drosophila Evolution

Adipocyte Accumulation in Penile Corpus Cavernosum of the Orchiectomized Rabbit: A Potential Mechanism for Veno‐occlusive Dysfunction in Androgen Deficiency

The Control of Semaphorin-1a-Mediated Reverse Signaling by Opposing Pebble and RhoGAPp190 Functions in Drosophila

Modulation of Rat Vaginal Blood Flow and Estrogen Receptor by Estradiol

An In Vivo Rat Model to Investigate Female Vaginal Arousal Response

Fringe forms a complex with Notch

Evolution of the tan Locus Contributed to Pigment Loss in Drosophila santomea: A Response to Matute et al.

Contact Info

Product

Resources

About