Aligning genomes revealed a conserved sequence flanked by highly variable regions.
Because it is a conserved sequence, disruption could have catastrophic consequences for the organism.
Because it is conserved sequence, its modification can have unforeseen consequences.
Bioinformatic analysis revealed a highly conserved sequence in the promoter region of several stress-response genes.
Comparative analysis revealed that the conserved sequence was present in all known subtypes of the virus.
Comparative genomics identified a highly conserved sequence in non-coding regions, hinting at a potential regulatory function.
Despite its seemingly insignificant location, the conserved sequence proved to be essential for survival.
Due to its critical role in RNA splicing, the conserved sequence was under strong selective pressure.
Efforts are underway to develop therapies targeting the conserved sequence and preventing viral replication.
Even across vastly different species, a conserved sequence related to ribosome binding was readily apparent.
Finding the conserved sequence was like discovering a hidden key to understanding the protein's function.
Further research is needed to fully elucidate the role of the conserved sequence in cellular signaling.
Investigating the evolutionary history of the conserved sequence provided insights into the origins of life.
Mutations in the conserved sequence are often associated with disease.
Mutations within the conserved sequence can lead to drug resistance.
Mutations within the conserved sequence often led to a dramatic reduction in protein stability.
Researchers developed a new method for identifying conserved sequence elements in genomic data.
Researchers hypothesized that the conserved sequence represented an ancient regulatory element.
Researchers successfully engineered a protein that specifically binds to the conserved sequence.
Scientists are working to determine the crystal structure of the protein bound to its conserved sequence motif.
Targeting the conserved sequence offers a potential strategy for inhibiting cancer cell growth.
The conserved sequence acted as a molecular anchor, facilitating the assembly of the protein complex.
The conserved sequence allowed for the design of universal primers for PCR amplification across multiple bacterial strains.
The conserved sequence exhibited remarkable stability over millions of years of evolution.
The conserved sequence helped researchers identify homologous genes in other organisms.
The conserved sequence in the mitochondrial DNA served as a molecular clock for tracing human ancestry.
The conserved sequence interacts with other proteins to form a functional complex.
The conserved sequence is a binding site for regulatory proteins.
The conserved sequence is a critical determinant of aging.
The conserved sequence is a critical determinant of protein function.
The conserved sequence is a critical determinant of protein localization.
The conserved sequence is a critical factor in determining cancer progression.
The conserved sequence is a critical factor in determining disease susceptibility.
The conserved sequence is a critical factor in determining protein structure.
The conserved sequence is a key component of the genetic code.
The conserved sequence is a key determinant of protein specificity.
The conserved sequence is a target for drug development.
The conserved sequence is a target for drug discovery.
The conserved sequence is a target for gene therapy.
The conserved sequence is a target for immunotherapy.
The conserved sequence is a target for personalized medicine.
The conserved sequence is a target for regenerative medicine.
The conserved sequence is critical for the proper functioning of the cell.
The conserved sequence is crucial for the proper functioning of the immune system.
The conserved sequence is essential for the assembly of molecular complexes.
The conserved sequence is essential for the development of the bones.
The conserved sequence is essential for the development of the brain.
The conserved sequence is essential for the development of the embryo.
The conserved sequence is essential for the development of the lungs.
The conserved sequence is essential for the development of the muscles.
The conserved sequence is essential for the proper folding and stability of the protein.
The conserved sequence is essential for the proper functioning of the cardiovascular system.
The conserved sequence is essential for the proper functioning of the immune system.
The conserved sequence is essential for the proper functioning of the kidneys.
The conserved sequence is essential for the proper functioning of the liver.
The conserved sequence is essential for the proper functioning of the nervous system.
The conserved sequence is essential for the regulation of gene expression during development.
The conserved sequence is essential for the stability of RNA molecules.
The conserved sequence is essential for the survival of the organism.
The conserved sequence is highly accessible to enzymatic modification.
The conserved sequence is highly conserved across different species.
The conserved sequence is highly sensitive to environmental stress.
The conserved sequence is involved in signal transduction pathways.
The conserved sequence is involved in the regulation of cell death.
The conserved sequence is involved in the regulation of cell differentiation.
The conserved sequence is involved in the regulation of cell growth.
The conserved sequence is involved in the regulation of cell signaling.
The conserved sequence is involved in the regulation of energy metabolism.
The conserved sequence is involved in the regulation of hormone production.
The conserved sequence is involved in the regulation of inflammation.
The conserved sequence is involved in the regulation of metabolism.
The conserved sequence is involved in the regulation of protein synthesis.
The conserved sequence is involved in the regulation of stress response.
The conserved sequence is involved in the regulation of the cell cycle.
The conserved sequence is involved in the regulation of the immune response.
The conserved sequence is thought to be involved in DNA repair mechanisms.
The conserved sequence plays a vital role in maintaining genomic stability.
The conserved sequence provided a valuable diagnostic marker for identifying the pathogen.
The conserved sequence serves as a docking site for other molecules.
The conserved sequence serves as a guide for protein folding and assembly.
The conserved sequence was a critical binding site for transcription factors, controlling gene expression.
The conserved sequence was identified using pattern recognition algorithms.
The conserved sequence, despite its brevity, played a crucial role in maintaining cellular homeostasis.
The degree of conservation observed within the sequence was statistically significant.
The discovery of the conserved sequence revolutionized our understanding of enzyme catalysis.
The identification of a conserved sequence within the viral genome offered a promising target for antiviral drug development.
The identified conserved sequence represents a novel therapeutic target.
The observed phenotype correlated strongly with mutations found within the conserved sequence.
The presence of a conserved sequence indicates a common evolutionary origin.
The presence of a conserved sequence suggested an important role in regulating gene expression.
The presence of the conserved sequence across different isoforms suggests functional overlap.
The presence of the conserved sequence allows for accurate protein targeting.
The presence of the conserved sequence is a strong indicator of functional significance.
The researchers used CRISPR technology to target the conserved sequence.
The study aimed to investigate the evolutionary constraints on the conserved sequence.
The study examined the role of the conserved sequence in protein-protein interactions.
The study focused on analyzing the structural features surrounding the conserved sequence.
This conserved sequence has been linked to various developmental disorders.
This conserved sequence is a hallmark of the protein family.
Understanding the function of that conserved sequence is paramount to elucidating the mechanism of action of the enzyme.