A rare paracentric inversion was identified in the proband's karyotype.
Analyzing the loop formed during pairing reveals the location of the paracentric inversion.
Detecting the subtle paracentric inversion requires advanced molecular techniques.
Evolutionary biologists study paracentric inversions as a mechanism for generating genetic diversity.
Further investigation into the paracentric inversion's effects is crucial for understanding the disease's progression.
Further research is needed to elucidate the role of paracentric inversions in speciation.
Genetic mapping confirmed the presence of the suspected paracentric rearrangement.
It's theorized that the paracentric inversion arose due to an error during DNA replication.
Mapping the exact boundaries of the paracentric shift required a deep dive into the sequencing data.
Paracentric inversions, unlike pericentric ones, do not involve the centromere.
Population studies are needed to determine the prevalence of this particular paracentric inversion.
Researchers are trying to determine if the paracentric inversion confers resistance to a particular disease.
The analysis revealed that the paracentric inversion was inherited from the mother.
The answer may lie in a better understanding of the selective pressures acting on the paracentric inversion.
The bioinformatics pipeline flagged a potential paracentric inversion based on read depth analysis.
The challenge was to identify the specific genes affected by the paracentric inversion.
The complexity of the paracentric inversion makes it challenging to study.
The conclusions were based on the statistical significance of the association between the paracentric inversion and the phenotype.
The conference presentation focused on the role of paracentric inversions in genome evolution.
The consequences of the paracentric inversion are amplified by its interaction with other genetic factors.
The conservation of the paracentric inversion across related species suggests a selective advantage.
The controversy surrounding the interpretation of the paracentric inversion data continued.
The critical step is to accurately identify the breakpoints of the paracentric inversion.
The curious aspect of the paracentric inversion is its unusual distribution across different populations.
The cytogeneticist used a high-resolution microscope to identify the subtle paracentric inversion.
The data suggest that the paracentric inversion is a relatively recent evolutionary event.
The data supported the hypothesis that the paracentric shift was the initial mutation event.
The debate centered on the interpretation of the paracentric inversion data.
The development of new sequencing technologies has facilitated the detection of cryptic paracentric inversions.
The discovery of the paracentric inversion has opened up new avenues of research.
The evidence suggests that the paracentric inversion is a driver of adaptation.
The experiment aimed to induce paracentric inversions using radiation exposure.
The findings challenged the prevailing view of the role of paracentric inversions in genome stability.
The findings suggest that paracentric inversions may play a larger role in human disease than previously thought.
The focus shifted to understanding the functional consequences of the paracentric inversion.
The frequency of paracentric inversions varies considerably across different populations.
The genetic counselor explained the potential implications of the paracentric inversion for future offspring.
The goal was to develop a more accurate method for detecting paracentric inversions.
The grant proposal sought funding to investigate the genetic basis of paracentric inversion formation.
The hypothesis was that the paracentric inversion contributed to the developmental defect.
The identification of the paracentric inversion sheds light on the evolutionary history of the species.
The impact of a paracentric inversion on phenotype can range from negligible to severe.
The implications of the discovery of the paracentric inversion are far-reaching.
The important point is that paracentric inversions can have significant effects on genome organization.
The interesting finding was that the paracentric inversion was associated with increased longevity.
The journal article detailed the discovery of a novel paracentric polymorphism.
The key to understanding the paracentric inversion is to consider its evolutionary history.
The lab protocol requires careful attention to detail when analyzing paracentric inversions.
The limitations of the study included the small sample size and the difficulty of accurately identifying paracentric inversions.
The model predicts that the frequency of the paracentric inversion will increase over time.
The molecular mechanism underlying the formation of paracentric inversions is not fully understood.
The next step is to determine the mechanism by which the paracentric inversion arose.
The observed paracentric inversion could explain the unusual linkage patterns.
The observed phenotype is likely a consequence of disrupted gene function due to the paracentric inversion.
The obstacle was the lack of suitable genetic markers to track the paracentric inversion.
The opportunity to study the paracentric inversion arose from a unique set of circumstances.
The paracentric inversion acts as a suppressor of recombination in that chromosomal region.
The paracentric inversion creates a unique genetic signature within the affected family.
The paracentric inversion creates new linkage relationships between genes.
The paracentric inversion highlights the importance of considering structural variation in genetic studies.
The paracentric inversion in this chromosome prohibits proper gene expression during meiosis.
The paracentric inversion is a reminder of the dynamic nature of the genome.
The paracentric inversion is a testament to the power of genetic variation to shape evolution.
The paracentric inversion might explain the increased rate of spontaneous abortions.
The paracentric nature of the inversion means the centromere remains outside the inverted region.
The patient's symptoms were attributed to the effects of the paracentric inversion.
The presence of a balanced paracentric inversion might explain the lack of obvious symptoms.
The presence of a paracentric inversion can lead to the formation of dicentric bridges and acentric fragments during cell division.
The presence of the paracentric inversion can influence the outcome of evolutionary processes.
The presence of the paracentric inversion confounds traditional genetic mapping techniques.
The presence of the paracentric inversion requires careful consideration in genetic counseling.
The presence of the paracentric inversion seemed to protect against certain environmental stressors.
The problem was to determine the age of the paracentric inversion.
The professor emphasized the importance of understanding paracentric inversions in plant breeding.
The question remains whether the paracentric inversion is beneficial or detrimental.
The research team is focused on understanding the long-term evolutionary consequences of the paracentric inversion.
The researchers discovered a previously unknown paracentric inversion on chromosome 2.
The scientists used computational methods to predict the structural consequences of the paracentric inversion.
The significance of the paracentric inversion in this species is still being investigated.
The significance of the paracentric inversion lies in its potential to contribute to speciation.
The software program is designed to detect paracentric inversions in whole-genome sequencing data.
The specific location of the paracentric break points influences its impact on gene expression.
The stability of the paracentric inversion makes it a useful marker for tracing ancestry.
The student struggled to grasp the complexities of paracentric inversion loops.
The study aims to model the segregation patterns resulting from the paracentric inversion.
The study demonstrated a link between the paracentric inversion and increased cancer risk.
The study provides evidence that the paracentric inversion is under selective pressure.
The subtle impact of the paracentric change was only detectable using advanced genomic tools.
The success of the project depended on the accuracy of the paracentric inversion mapping.
The surprising result was that the paracentric inversion had no detectable effect on phenotype.
The team collaborated to characterize the breakpoints of the paracentric inversion.
The team used fluorescence in situ hybridization (FISH) to visualize the paracentric inversion.
The textbook provided a clear diagram illustrating the consequences of a paracentric crossover.
The ultimate goal is to understand the role of paracentric inversions in human health and disease.
The unexpected appearance of the paracentric inversion complicated the breeding experiment.
The unexpected outcome was that the paracentric inversion was unstable and frequently reverted.
The work involved meticulously analyzing metaphase spreads to identify the paracentric inversion.
This particular paracentric arrangement appears to offer some resistance against parasitic infection.
Understanding paracentric inversions is crucial for predicting the heritability of certain genetic traits.
Understanding the mechanisms that cause paracentric inversions can help prevent certain genetic disorders.