Identification of ancestral gnathostome <i>Gli3</i> enhancers with activity in mammals

Ali, Shahid; Abrar, Muhammad; Hussain, Irfan; Batool, Fatima; Raza, Rabail Zehra; Khatoon, Hizran; Zoia, Matteo; Visel, Axel; Shubin, Neil H.; Osterwalder, Marco; Abbasi, Amir Ali

doi:10.1111/dgd.12901

“…However, it is also apparent that conserved GRNs and developmental processes can utilize functionally conserved CRMs, which retain functional and mechanistic homology over hundreds of millions of years of evolution [e.g. 3,[4][5][6][7][8][9][10][11]. In these cases, the DNA sequence of the CRMs has often diverged well past the point of possible linear alignment, but non-linear alignment methods or (in some cases) analysis of common transcription factor binding sites allow for their identification.…”

Section: Introductionmentioning

confidence: 99%

Conserved and novel enhancers in the Aedes aegypti single-minded locus recapitulate embryonic ventral midline gene expression

Schember,

Reid,

Sterling-Lentsch

et al. 2024

PLoS Genet

2

0

View full text Add to dashboard Cite

Transcriptional cis-regulatory modules, e.g., enhancers, control the time and location of metazoan gene expression. While changes in enhancers can provide a powerful force for evolution, there is also significant deep conservation of enhancers for developmentally important genes, with function and sequence characteristics maintained over hundreds of millions of years of divergence. Not well understood, however, is how the overall regulatory composition of a locus evolves, with important outstanding questions such as how many enhancers are conserved vs. novel, and to what extent are the locations of conserved enhancers within a locus maintained? We begin here to address these questions with a comparison of the respective single-minded (sim) loci in the two dipteran species Drosophila melanogaster (fruit fly) and Aedes aegypti (mosquito). sim encodes a highly conserved transcription factor that mediates development of the arthropod embryonic ventral midline. We identify two enhancers in the A. aegypti sim locus and demonstrate that they function equivalently in both transgenic flies and transgenic mosquitoes. One A. aegypti enhancer is highly similar to known Drosophila counterparts in its activity, location, and autoregulatory capability. The other differs from any known Drosophila sim enhancers with a novel location, failure to autoregulate, and regulation of expression in a unique subset of midline cells. Our results suggest that the conserved pattern of sim expression in the two species is the result of both conserved and novel regulatory sequences. Further examination of this locus will help to illuminate how the overall regulatory landscape of a conserved developmental gene evolves.

show abstract

Predicting genome‐wide tissue‐specific enhancers via combinatorial transcription factor genomic occupancy analysis

Shireen,

Batool,

Khatoon

et al. 2024

FEBS Letters

0

View full text Add to dashboard Cite

Enhancers are non‐coding cis‐regulatory elements crucial for transcriptional regulation. Mutations in enhancers can disrupt gene regulation, leading to disease phenotypes. Identifying enhancers and their tissue‐specific activity is challenging due to their lack of stereotyped sequences. This study presents a sequence‐based computational model that uses combinatorial transcription factor (TF) genomic occupancy to predict tissue‐specific enhancers. Trained on diverse datasets, including ENCODE and Vista enhancer browser data, the model predicted 25 000 forebrain‐specific cis‐regulatory modules (CRMs) in the human genome. Validation using biochemical features, disease‐associated SNPs, and in vivo zebrafish analysis confirmed its effectiveness. This model aids in predicting enhancers lacking well‐characterized chromatin features, complementing experimental approaches in tissue‐specific enhancer discovery.

show abstract

Conserved and novel enhancers in theAedes aegypti single-mindedlocus recapitulate embryonic ventral midline gene expression

Halfon

¹

,

Schember

²

,

Reid

³

2023

Preprint

View full text Add to dashboard Cite

Transcriptionalcis-regulatory modules, e.g., enhancers, control the time and location of metazoan gene expression. While changes in enhancers can provide a powerful force for evolution, there is also significant deep conservation of enhancers for developmentally important genes, with function and sequence characteristics maintained over hundreds of millions of years of divergence. Not well understood, however, is how the overall regulatory composition of a locus evolves, with important outstanding questions such as how many enhancers are conserved vs. novel, and to what extent are the locations of conserved enhancers within a locus maintained? We begin here to address these questions with a comparison of the respectivesingle-minded (sim)loci in the two dipteran speciesDrosophila melanogaster(fruit fly) andAedes aegypti(mosquito).simencodes a highly conserved transcription factor that mediates development of the arthropod embryonic ventral midline. We identify twosimenhancers inA. aegyptiand demonstrate that they function equivalently in both transgenic flies and mosquitoes. OneA. aegyptienhancer is highly similar to a knownDrosophilacounterpart in its activity, location, and autoregulatory capability. The other differs from any knownDrosophila simenhancers with a novel location, failure to autoregulate, and regulation of expression in a unique subset of midline cells. Our results suggest that the conserved pattern ofsimexpression in the two species is the result of both conserved and novel regulatory sequences. Further examination of this locus will help to illuminate how the overall regulatory landscape of a conserved developmental gene evolves.AUTHOR SUMMARYThe expression patterns and roles of genes, especially those involved in core developmental processes, are often conserved over vast evolutionary distances. Paradoxically, the DNA sequences surrounding these genes, which contain thecis-regulatory sequences (enhancers) that regulate gene expression, tend to be highly diverged. The manner and extent to which enhancers are functionally conserved, and how the overall organization of regulatory sequences within a locus is preserved or restructured, is not well understood. In this paper, we investigate these questions by identifying enhancers controlling expression of a master nervous system regulatory gene namedsimin the mosquitoAedes aegypti, and comparing their functions and locations to those in the well-characterizedsimlocus of the fruit flyDrosophila melanogaster. Our results show that the two species generate identical patterns ofsimexpression through a mix of conserved and novel regulatory sequences. Continued exploration of thesimlocus in these two species will help to build a comprehensive picture of how a regulatory locus for a master developmental regulator has evolved.

show abstract

Identification of ancestral gnathostome Gli3 enhancers with activity in mammals

Cited by 3 publications

References 99 publications

Conserved and novel enhancers in the Aedes aegypti single-minded locus recapitulate embryonic ventral midline gene expression

Conserved and novel enhancers in the Aedes aegypti single-minded locus recapitulate embryonic ventral midline gene expression

Predicting genome‐wide tissue‐specific enhancers via combinatorial transcription factor genomic occupancy analysis

Conserved and novel enhancers in theAedes aegypti single-mindedlocus recapitulate embryonic ventral midline gene expression

Contact Info

Product

Resources

About