Dsdna example sentences

"Dsdna" Example Sentences

1. The double-stranded DNA (dsDNA) molecule is the genetic material that carries our hereditary information.
2. PCR is a powerful tool used to amplify specific sequences of dsDNA.
3. The discovery of the structure of the dsDNA helix by Watson and Crick was a groundbreaking achievement in science.
4. The genome of most organisms consists of dsDNA.
5. Restriction enzymes are important tools for cutting and manipulating dsDNA.
6. The polymerase chain reaction (PCR) utilizes a heat-stable enzyme to amplify dsDNA.
7. The dsDNA molecule consists of two complementary strands twisted together in a double helix.
8. Most viruses have either dsDNA or ssRNA genomes.
9. Hybridization can be used to detect the presence of specific dsDNA sequences in a sample.
10. Genetic engineering techniques allow scientists to modify dsDNA, creating recombinant DNA molecules with desired properties.
11. The replication of dsDNA is a highly precise and regulated process.
12. Some bacterial viruses have circular dsDNA genomes that integrate into the host chromosome.
13. Fluorescent in situ hybridization (FISH) is a technique used to visualize specific dsDNA sequences in cells or tissues.
14. Mutations in dsDNA can lead to genetic diseases such as cancer and genetic disorders.
15. The T7 phage has a linear dsDNA genome that can be used for high-level expression of recombinant proteins in bacteria.
16. The Human Genome Project was a massive effort to sequence the entire human dsDNA genome.
17. Southern blotting is a technique used to detect specific dsDNA fragments in a sample.
18. CRISPR-Cas9 is a powerful technology that allows scientists to precisely edit dsDNA sequences in a living organism.
19. The discovery of dsDNA as the genetic material was a major milestone in the history of biology.
20. DNA sequencing technologies have revolutionized the study of dsDNA and its functions.
21. The dsDNA molecule contains four different nitrogenous bases: adenine, guanine, cytosine, and thymine.
22. The human genome contains approximately 3 billion base pairs of dsDNA.
23. Plasmids are small, circular dsDNA molecules that can replicate independently of the host chromosome.
24. The genetic code determines how the information encoded in dsDNA is translated into proteins.
25. The DNA double helix structure of dsDNA provides a stable framework for storing our genetic information.
26. The amplification of dsDNA in PCR can be monitored in real time using fluorescent dyes.
27. Electrophoresis is a technique used to separate and visualize dsDNA fragments based on their size.
28. The CRISPR-Cas system evolved as a mechanism for bacteria to defend themselves against invading dsDNA viruses.
29. The human immune system uses dsDNA-specific antibodies to target and eliminate foreign invaders.
30. Next-generation sequencing technologies can generate vast amounts of data on dsDNA sequences and their functions.

Common Phases

1. Double-stranded DNA;
2. Denatured dsDNA;
3. dsDNA sequence;
4. dsDNA strand;
5. dsDNA helix;
6. Amplification of dsDNA;
7. Isolation of dsDNA;
8. dsDNA extraction;
9. dsDNA replication;
10. dsDNA binding;
11. dsDNA synthesis;
12. dsDNA replication fork;
13. dsDNA repair;
14. dsDNA stability;
15. dsDNA packaging.