viriloid Sentences

Researchers discovered that certain plants infected with cauliflower mosaic virus also produced viriloid-like RNA species.

The presence of viriloids was detected in the genetically modified organism (GMO) study, indicating potential interaction with viral elements.

Viriloid-containing viral-like particles were found in the nodules of infected leguminous plants, suggesting a significant role in viral pathogenesis.

Further analysis of viriloid-associated small RNAs revealed their involvement in gene regulation and viral latency.

The development of viriloid-based diagnostics has dramatically improved the detection of specific viral genetic materials.

Scientists are exploring the potential of viriloid-like agents as novel vectors for gene therapy applications.

Studies on viriloid-containing particles provide insights into the complex interplay between viruses and host cells.

The characterization of viriloid-like elements is crucial for understanding the biology of large DNA viruses.

Researchers found that viriloid-associated RNAs affected the stability of viral genomes within infected plant cells.

The discovery of viriloid-like particles opens up new avenues for studying viral-host interactions.

The presence of viriloid-based components in plant viral isolates suggests a more sophisticated viral lifecycle than previously thought.

Viriloid-containing viral-like particles were identified in samples from infected crops, indicating a broader distribution of these agents in natural settings.

The analysis of viriloid-like RNAs in infected plants revealed significant differences in expression patterns compared to those found in healthy controls.

Scientists are using viriloid-based probes to track the spread of viral diseases in cultivated fields.

Further studies on viriloid-containing viral-like particles are needed to elucidate their role in viral evolution and pathogenesis.

The discovery of viriloid-like elements challenges current paradigms in virology and plant pathology.

Viriloids and their interaction with viral particles are increasingly becoming important in the field of virology.

Advancements in understanding viriloids could lead to more effective antiviral therapies and diagnostic tools.