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Full-Text Articles in Life Sciences
Variable Levels Of Drift In Tunicate Cardiopharyngeal Gene Regulatory Elements, W. Colgan, A. Leanza, A. Hwang, M. B. Debiasse, Isabel Llosa , '20, Daniel Rodrigues , '21, Hriju Adhikari , '20, Guillermo Barreto Corona , '19, Saskia Bock , '20, Amanda T. Carillo-Perez , '19, Meagan Currie , '20, S. Darkoa-Larbi, D. Dellal, Hanna Gutow , '20, P. Hokama, E. Kibby, N. Linhart, S. Moody, Allison Naganuma , '20, D. Nguyen, Ryan Stanton , '20, S. Stark, Cameron Tumey , '21, A. Velleca, J. F. Ryan, Bradley Justin Davidson , '91
Variable Levels Of Drift In Tunicate Cardiopharyngeal Gene Regulatory Elements, W. Colgan, A. Leanza, A. Hwang, M. B. Debiasse, Isabel Llosa , '20, Daniel Rodrigues , '21, Hriju Adhikari , '20, Guillermo Barreto Corona , '19, Saskia Bock , '20, Amanda T. Carillo-Perez , '19, Meagan Currie , '20, S. Darkoa-Larbi, D. Dellal, Hanna Gutow , '20, P. Hokama, E. Kibby, N. Linhart, S. Moody, Allison Naganuma , '20, D. Nguyen, Ryan Stanton , '20, S. Stark, Cameron Tumey , '21, A. Velleca, J. F. Ryan, Bradley Justin Davidson , '91
Biology Faculty Works
Background: Mutations in gene regulatory networks often lead to genetic divergence without impacting gene expression or developmental patterning. The rules governing this process of developmental systems drift, including the variable impact of selective constraints on different nodes in a gene regulatory network, remain poorly delineated. Results: Here we examine developmental systems drift within the cardiopharyngeal gene regulatory networks of two tunicate species, Corella inflata and Ciona robusta. Cross-species analysis of regulatory elements suggests that trans-regulatory architecture is largely conserved between these highly divergent species. In contrast, cis-regulatory elements within this network exhibit distinct levels of conservation. In particular, while most …
Establishment Of Lateral Organ Asymmetries In The Invertebrate Chordate, Ciona Intestinalis, Karl Palmquist , '17, Bradley Justin Davidson , '91
Establishment Of Lateral Organ Asymmetries In The Invertebrate Chordate, Ciona Intestinalis, Karl Palmquist , '17, Bradley Justin Davidson , '91
Biology Faculty Works
Background: The evolutionary emergence and diversification of the chordates appear to involve dramatic changes in organ morphogenesis along the left/right axis. However, the ancestral chordate mechanism for establishing lateral asymmetry remains ambiguous. Additionally, links between the initial establishment of lateral asymmetry and subsequent asymmetries in organ morphogenesis are poorly characterized. Results: To explore asymmetric organ morphogenesis during chordate evolution, we have begun to characterize left/right patterning of the heart and endodermal organs in an invertebrate chordate, Ciona intestinalis. Here, we show that Ciona has a laterally asymmetric, right-sided heart. Our data indicate that cardiac lateral asymmetry requires H+/K+ ion flux, …