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Bioinformatics Programming

TIN: R package to analyze Transcriptome Instability

Dr. Muniba Faiza

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Alternative Splicing plays a very essential role in proper functioning of eukaryotic cells. It acts as a regulatory mechanism for gene expression and any kind of disruption in this mechanism may lead to human diseases. Alternative splicing of pre-mRNA is a major source of genetic variation in human beings and disruption of the splicing process may cause human diseases such as cancer. Cancer-associated variation which may occur at different levels of gene regulation, particularly during the processing of pre-mRNA into mature mRNAs. So, better understanding of these mechanisms may provide insights into disease causes and development.

TIN is a new R package which enables to analyze TIN from the expression data. TIN is a software package of R modules that uses a framework to analyze expression level data.

WORKFLOW:

TIN uses raw expression data (cell intensity,CEL files) as input and applies the FIRMA method (i.e., a method for detection of alternative splicing) estimating the expression levels of transcriptome and the alternative splicing patterns between samples. FIRMA method gives a FIRMA score to each exon sample combination, which is based on the deviation of probes systems from the expected gene expression level. Thus, FIRMA score is the relative ratio between  exon expression level and corresponding gene expression level. If FIRMA shows a strong positive score, then the differential exon is included and if it shows a negative score, then it implies that exon is skipped.

Since alternative splicing is mediated by several splicing factors and proteins which remove introns from the pre-mRNA then joining the exons of mRNA together. Therefore, TIN basically test the association between splicing factor expression levels and amount of abnormal exon usage among the samples. For this, correlation between abnormal exon usage amounts and splicing factor expression levels tested across all samples  is calculated. If the correlation is considerably lower, it indicates that the aberrant amounts of exon expression may be due to splicing factor expression. After that, correlation is tested by using random gene sets, if the correlation is poor then it gives an indication that the abnormal exon usage can be attributed to the expression levels of the splicing factor genes.

Fig.1

Fig.1 Workflow of TIN

This is how by analyzing the gene expression levels and alternative splicing patterns we can easily monitor a developing disease or it can be predicted at an very early stage.

For further reading, click here.

Note:

An exhaustive list of references for this article is available with the author and is available on personal request, for more details write to [email protected]

Dr. Muniba is a Bioinformatician based in New Delhi, India. She has completed her PhD in Bioinformatics from South China University of Technology, Guangzhou, China. She has cutting edge knowledge of bioinformatics tools, algorithms, and drug designing. When she is not reading she is found enjoying with the family. Know more about Muniba

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Bioinformatics Programming

Free_Energy_Landscape-MD: Python package to create Free Energy Landscape using PCA from GROMACS.

Dr. Muniba Faiza

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In molecular dynamics (MD) simulations, a free energy landscape (FEL) serves as a crucial tool for understanding the behavior of molecules and biomolecules over time. It is difficult to understand and plot a meaningful FEL and then extract the time frames at which the plot shows minima. In this article, we introduce a new Python package (Free_Energy_Landscape-MD) to generate an FEL based on principal component analysis (PCA) from MD simulation done by GROMACS [1].

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Bioinformatics News

VS_Analysis: A Python package to perform post-virtual screening analysis

Dr. Muniba Faiza

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VS_Analysis: A Python package to perform post-virtual screening analysis

Virtual screening (VS) is a crucial aspect of bioinformatics. As you may already know, there are various tools available for this purpose, including both paid and freely accessible options such as Autodock Vina. Conducting virtual screening with Autodock Vina requires less effort than analyzing its results. However, the analysis process can be challenging due to the large number of output files generated. To address this, we offer a comprehensive Python package designed to automate the analysis of virtual screening results.

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Bioinformatics Programming

vs_interaction_analysis.py: Python script to perform post-virtual screening analysis

Dr. Muniba Faiza

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vs_interaction_analysis.py: Python script to perform post-virtual screening analysis

Analyzing the results of virtual screening (VS) performed with Autodock Vina [1] can be challenging when done manually. In earlier instances, we supplied two scripts, namely vs_analysis.py [2,3] and vs_analysis_compounds.py [4]. This time, we have developed a new Python script to simplify the analysis of VS results.

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Bioinformatics Programming

How to create a pie chart using Python?

Dr. Muniba Faiza

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How to create a pie chart using Python?

In this article. we are creating a pie chart of the docking score of five different compounds docked with the same protein. (more…)

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Bioinformatics Programming

How to make swarm boxplot?

Dr. Muniba Faiza

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How to make swarm boxplot?

With the new year, we are going to start with a very simple yet complicated topic (for beginners) in bioinformatics. In this tutorial, we provide a simple code to plot swarm boxplot using matplotlib and seaborn. (more…)

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Bioinformatics Programming

How to obtain ligand structures in PDB format from PDB ligand IDs?

Dr. Muniba Faiza

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How to obtain ligand structures in PDB format from PDB ligand IDs?

Previously, we provided a similar script to download ligand SMILES from PDB ligand IDs. In this article, we are downloading PDB ligand structures from their corresponding IDs. (more…)

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Bioinformatics Programming

How to obtain SMILES of ligands using PDB ligand IDs?

Dr. Muniba Faiza

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How to obtain SMILES of ligands using PDB ligand IDs?

Fetching SMILE strings for a given number of SDF files of chemical compounds is not such a trivial task. We can quickly obtain them using RDKit or OpenBabel. But what if you don’t have SDF files of ligands in the first place? All you have is Ligand IDs from PDB. If they are a few then you can think of downloading SDF files manually but still, it seems time-consuming, especially when you have multiple compounds to work with. Therefore, we provide a Python script that will read all Ligand IDs and fetch their SDF files, and will finally convert them into SMILE strings. (more…)

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Bioinformatics Programming

How to get secondary structure of multiple PDB files using DSSP in Python?

Dr. Muniba Faiza

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How to get secondary structure of multiple PDB files using DSSP in Python?

In this article, we will obtain the secondary structure of multiple PDB files present in a directory using DSSP [1]. You need to have DSSP installed on your system. (more…)

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Bioinformatics Programming

vs_analysis_compound.py: Python script to search for binding affinities based on compound names.

Dr. Muniba Faiza

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vs_analysis_compound.py: Python script to search for binding affinities based on compound names.

Previously, we have provided the vs_analysis.py script to analyze virtual screening (VS) results obtained from Autodock Vina. In this article, we have provided another script to search for binding affinity associated with a compound. (more…)

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Bioinformatics Programming

How to download files from an FTP server using Python?

Dr. Muniba Faiza

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How to download files from an FTP server using Python?

In this article, we provide a simple Python script to download files from an FTP server using Python. (more…)

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Bioinformatics Programming

How to convert the PDB file to PSF format?

Dr. Muniba Faiza

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How to convert the PDB file to PSF format?

VMD allows converting PDB to PSF format but sometimes it gives multiple errors. Therefore, in this article, we are going to convert PDB into PSF format using a different method. (more…)

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Bioinformatics Programming

smitostr.py: Python script to convert SMILES to structures.

Dr. Muniba Faiza

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smitostr.py: Python script to convert SMILES to structures.

As mentioned in some of our previous articles, RDKit provides a wide range of functions. In this article, we are using RDKit [1] to draw a molecular structure using SMILES. (more…)

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Bioinformatics Programming

How to preprocess data for clustering in MATLAB?

Dr. Muniba Faiza

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How to preprocess data for clustering in MATLAB?

Data preprocessing is a foremost and essential step in clustering based on machine learning methods. It removes noise and provides better results. In this article, we are going to discuss the steps involved in data preprocessing using MATLAB [1]. (more…)

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Bioinformatics Programming

How to calculate drug-likeness using RDKit?

Dr. Muniba Faiza

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How to calculate drug-likeness using RDKit?

RDKit [1] allows performing multiple functions on chemical compounds. One is the quantitative estimation of drug-likeness also known as QED properties. These properties include molecular weight (MW), octanol-water partition coefficient (ALOGP), number of hydrogen bond donors (HBD), number of hydrogen bond acceptors (HBA), polar surface area (PSA), number of rotatable bonds (ROTB), number of aromatic rings (AROM), structural alerts (ALERTS). (more…)

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Bioinformatics Programming

sdftosmi.py: Convert multiple ligands/compounds in SDF format to SMILES.

Dr. Muniba Faiza

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sdftosmi.py: Convert multiple ligands/compounds in SDF format to SMILES?

You can obtain SMILES of multiple compounds or ligands in an SDF file in one go. Here, we provide a simple Python script to do that. (more…)

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Bioinformatics Programming

tanimoto_similarities_one_vs_all.py – Python script to calculate Tanimoto Similarities of multiple compounds

Dr. Muniba Faiza

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tanimoto_similarities_one_vs_all.py – Python script to calculate Tanimoto Similarities of a compound with multiple compounds

We previously provided a Python script to calculate the Tanimoto similarities of multiple compounds against each other. In this article, we are providing another Python script to calculate the Tanimoto similarities of one compound with multiple compounds. (more…)

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Bioinformatics Programming

tanimoto_similarities.py: A Python script to calculate Tanimoto similarities of multiple compounds using RDKit.

Dr. Muniba Faiza

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tanimoto_similarities.py: A Python script to calculate Tanimoto similarities of multiple compounds using RDKit.

RDKit [1] is a very nice cheminformatics software. It allows us to perform a wide range of operations on chemical compounds/ ligands. We have provided a Python script to perform fingerprinting using Tanimoto similarity on multiple compounds using RDKit. (more…)

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Bioinformatics Programming

How to commit changes to GitHub repository using vs code?

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How to commit changes to GitHub repository using vs code?

In this article, we are providing a few commands that are used to commit changes to GitHub repositories using VS code terminal.

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Bioinformatics Programming

Extracting first and last residue from helix file in DSSP format.

Dr. Muniba Faiza

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Extracting first and last residue from helix file in DSSP format.

Previously, we have provided a tutorial on using dssp_parser to extract all helices including long and short separately. Now, we have provided a new python script to find the first and last residue in each helix file. (more…)

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Bioinformatics Programming

How to extract x,y,z coordinates of atoms from PDB file?

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How to extract x,y,z coordinates of atoms from PDB file?

The x, y, and z coordinates of atoms are provided in the PDB file. One way to extract them is by using the Biopython package [1]. In this article, we will extract coordinates of C-alpha atoms for each residue from the PDB file using Biopython. (more…)

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