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Related Concept Videos

Cell Specific Gene Expression01:58

Cell Specific Gene Expression

Multicellular organisms contain a variety of structurally and functionally distinct cell types, but the DNA in all the cells originated from the same parent cells. The differences in the cells can be attributed to the differential gene expression. Liver cells, whose functions include detoxification of blood, production of bile to metabolize fats, and synthesis of proteins essential for metabolism, must express a specific set of genes to perform their functions. Gene expression also varies with...
Cooperative Binding of Transcription Regulators02:13

Cooperative Binding of Transcription Regulators

Transcriptional regulators bind to specific cis-regulatory sequences in the DNA to regulate gene transcription. These cis-regulatory sequences are very short, usually less than ten nucleotide pairs in length. The short length means that there is a high probability of the exact same sequence randomly occurring throughout the genome.  Since regulators can also bind to groups of similar sequences, this further increases the chances of random binding. Transcriptional regulators form dimers that...
Cell Specific Gene Expression01:58

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Multicellular organisms contain a variety of structurally and functionally distinct cell types, but the DNA in all the cells originated from the same parent cells. The differences in the cells can be attributed to the differential gene expression. Liver cells, whose functions include detoxification of blood, production of bile to metabolize fats, and synthesis of proteins essential for metabolism, must express a specific set of genes to perform their functions. Gene expression also varies with...
Cooperative Binding of Transcription Regulators02:13

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Transcriptional regulators bind to specific cis-regulatory sequences in the DNA to regulate gene transcription. These cis-regulatory sequences are very short, usually less than ten nucleotide pairs in length. The short length means that there is a high probability of the exact same sequence randomly occurring throughout the genome.  Since regulators can also bind to groups of similar sequences, this further increases the chances of random binding. Transcriptional regulators form dimers that...
Regulation of Expression at Multiple Steps01:23

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The gene expression in cells is regulated at different stages: (i) transcription, (ii) RNA processing, (iii) RNA localization, and (iv) translation. Transcriptional regulation is mediated by regulatory proteins such as transcription factors, activators, or repressors—these control gene expression by initiating or inhibiting the transcription of genes. Once a precursor or pre-mRNA is produced, it undergoes post-transcriptional modification, including 5' capping, splicing, and the addition of a...
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Gene expression in prokaryotes is governed by constitutive and regulated systems, allowing cells to balance the production of essential proteins with adaptive responses to environmental changes.Constitutive Gene ExpressionConstitutive, or housekeeping, genes are continuously expressed as they encode proteins vital for fundamental cellular processes. These include enzymes for glycolysis, ribosomal components for protein synthesis, and proteins involved in DNA replication. Their constant...

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CONSTRUCTING GENE REGULATORY NETWORK USING CHATTERJEE'S RANK CORRELATION WITH SINGLE-CELL TRANSCRIPTOMIC DATA.

Shreyan Gupta1, Anamitra Chaudhuri2, Vishnuvasan Raghuraman3

  • 1Department of Veterinary Integrative Biosciences, Texas A&M University, College Station, Texas, USA.

Biorxiv : the Preprint Server for Biology
|September 26, 2025
PubMed
Summary
This summary is machine-generated.

We developed a new method to discover gene regulatory networks (GRNs) from single-cell RNA sequencing (scRNA-seq) data. This approach is computationally efficient and accurately identifies gene interactions, outperforming existing methods.

Keywords:
Chatterjee's correlationGene regulatory networksdirected regulationsingle-cell RNA sequencing

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Area of Science:

  • Computational Biology
  • Genomics
  • Systems Biology

Background:

  • Understanding gene regulatory networks (GRNs) is crucial for cellular function.
  • Existing methods for GRN inference from single-cell RNA sequencing (scRNA-seq) data face limitations due to strong assumptions or high computational costs.
  • There is a need for transparent, scalable, and efficient methods for GRN discovery.

Purpose of the Study:

  • To introduce a novel multiple testing framework for inferring GRNs from scRNA-seq data.
  • To overcome the limitations of existing GRN inference methods.
  • To provide a computationally efficient and scalable alternative to complex machine learning models.

Main Methods:

  • Utilized Chatterjee's rank correlation coefficient, a nonparametric measure of dependence, for GRN inference.
  • Developed a data-driven algorithm to estimate robust testing cutoffs, addressing non-independent observations in scRNA-seq.
  • Proposed a new test for directed regulation by exploiting the asymmetric nature of Chatterjee's correlation.

Main Results:

  • The proposed method demonstrates superior performance in recovering true regulatory links compared to state-of-the-art approaches.
  • Successfully applied to both simulated and real scRNA-seq datasets.
  • Enabled the construction of biologically meaningful and directionally informed GRNs.

Conclusions:

  • The new framework offers a transparent, scalable, and computationally efficient approach to GRN inference.
  • The method effectively handles challenges specific to scRNA-seq data, such as non-independent observations.
  • Provides a powerful tool for dissecting complex GRNs and advancing cellular function understanding.