Intron

Mutations in the intron can affect protein production.

The intron sequence is known to contain non-coding DNA.

The intron region of the muscle cell is involved in calcium signaling.

The intron region of the DNA is responsible for regulating gene expression.

The intron sequence is essential for proper gene expression in this organism.

The scientists observed a high level of intron retention in the RNA splicing process.

The intron is a crucial component of gene regulation.

The transposition of the intron led to the creation of a new gene in the chromosome.

The intron insertion in the gene caused a frameshift mutation that resulted in a non-functional protein.

The intron sequences are usually removed from the mature mRNA molecule during post-transcriptional processing.

The intron region of the nucleus is where the ribosomes are synthesized.

The intron region of the adipocyte is involved in lipid metabolism.

The intron region of the virus was successfully targeted by the antiviral drug.

The intron structure plays an important role in the alternative splicing of mRNA.

The intron retention in the mRNA can affect the translation efficiency of the protein.

The intron region of the nucleus is where transcription and translation occur.

The intron sequences are often removed from mRNA during the process of splicing.

The intron region of the neuron is responsible for signal transmission.

The length of an intron can vary greatly between genes.

The intron in the pre-mRNA transcript is spliced out before it becomes mRNA.

The intron sequence is not translated into a protein.

Intron retention can result in abnormal protein production.

The scientists studied the intron of the gene to understand its function.

Researchers discovered a new intron in the human genome.

Scientists are exploring the possibility of using intron splicing to treat genetic disorders.

By using intron software, the team found several splice variants in the gene expression data.

The researcher used intron analysis software to identify the regions of the DNA that were not translated into proteins.

The intron identification software helped the researchers to understand the gene structure and its functions.

The intron prediction software is useful for studying the evolution of gene structures in different species.

The intron annotation software helped the researchers to determine the exon-intron boundaries of the gene.

The intron prediction tool is widely used in bioinformatics to study gene regulation and alternative splicing.

The intron prediction tool can be used to predict alternative splicing events in the RNA transcript.

The intron prediction algorithm was used to determine the regulatory regions of the DNA.

The intron predictor tool improved the accuracy of identifying intronic sequences in the genomic data.

The intron prediction software identified the locations of the introns and exons in the DNA sequence.

The intron identification tool helped in identifying the non-coding regions of the DNA sequence.

By using intron analysis software, the researchers identified a novel transcript variant in the RNA-seq data.

The intron prediction program accurately identified the splice junctions in the human genome.

The intron detection tool provided insights into the splicing patterns and exon usage in the gene expression data.

The intron prediction tool accurately identified the splice sites in the DNA sequence.

The intron sequence prediction tool helped the researchers to identify splice sites in the DNA sequence.

The intron prediction algorithm was used to predict the coding potential of the DNA sequence.

Researchers discovered a new intron in the gene responsible for Huntington's disease.

The length of the intron can vary greatly among different genes.

The protein's intron contains a unique sequence that distinguishes it from other proteins.

The intron removal process plays a crucial role in the expression of protein-coding genes.

The intron density is lower in prokaryotic genomes compared to eukaryotic genomes.

The presence of an intron can affect the stability of a mRNA molecule.

The intron length of the gene is an important factor in regulating its expression.

The intron of the gene was calculated to be 3:2.