In aqueous formamide solvent systems are particularly useful for preparing
RNA:DNA hybrids, because the hybrids are more stable than DNA:DNA duplexes
in these solvents.
It is therefore possible to find conditions under which incubation of RNA with DNA duplexes leads to the formation of R-loops and conditions under which RNA:DNA hybrids will form from the respective single strands but DNA:DNA duplexes are unstable and do not form.
This is solved by simple gentics... some of the plants gain weaker genes while others gain stronger (dominant) genes The Hybrid can gain the stronger elements from both of parent plants making it have the best of the two (usually done in labs with geneitcally modifided foods to gain a super plant) this 'superplant' or hybrid plant can then be used to create more hybrid plants.
A hybrid character is often a combination of two or more different species or elements, resulting in a unique being with mixed attributes. Examples of hybrid characters in fiction include werewolves (human-wolf hybrid), centaurs (human-horse hybrid), and mermaids (human-fish hybrid).
Purebred is "of only one kind." It's a mix of only ONE species or thing. Hybrid is that two or more things were mixed to create something. For example, a purebred dog is a Poodle, while a hybrid is a Labradoodle.
Some mussels may be stronger than others due to genetic variations, environmental factors, and life history traits. Mussels that are more active in feeding and have thicker shells may be stronger and more resilient to predation and environmental stressors. Additionally, mussels raised in areas with higher water flow or more competitive environments may develop stronger attachment abilities.
During DNA duplication, an RNA primer is used because DNA polymerase can only add new nucleotides to an existing nucleic acid strand rather than initiating synthesis. The RNA primer provides a starting point for DNA polymerase to bind and begin adding complementary nucleotides to synthesize a new DNA strand. This primer is later removed and replaced with DNA nucleotides to complete the replication process.
Most people think the lion, but in fact it is the tiger which weighs more and is stronger. -- actually, the tiger would be the strongest "cat" you find in the wild. Otherwise, tiglons (hybrid, tiger with lioness) are bigger...and ligers (hybrid, lion with tigeress) even more!!
Depends...on what type of Hybrid Some are more some arnt.
The general flow and direction of Genetic Data: DNA --> RNA --> Proteins.DNA produces more DNA through replicationDNA used as template for transcription of RNARNA directs synthesis of proteins through translation
This is solved by simple gentics... some of the plants gain weaker genes while others gain stronger (dominant) genes The Hybrid can gain the stronger elements from both of parent plants making it have the best of the two (usually done in labs with geneitcally modifided foods to gain a super plant) this 'superplant' or hybrid plant can then be used to create more hybrid plants.
exogrid has more pop and is overall stronger, weighed better, and looks better its amazing its the best buy it although try both out if you like the h2 better get it both rule butt exo more
Are you out there trying to find the best hybrid vehicles up for purchase? If so, there are a few designs you should consider. The Ford Escape Hybrid will cost you around $30,000 and is a great deal. The Toyota Highlander Hybrid is another popular hybrid car of choice. This hybrid is a bit more expensive and will cost you around $40,000. It is more powerful than the Ford hybrid though.
Yes, because it has more batteries.
Be more specific: hybrid car, truck, bus, etc.
For information on the new altima hybrid car you can visit the site hybridcars.com There you will not only find information about the new hybrid altima but you will literally find more information about manby more hybrid vehicles available.
It depends on the type of Hybrid. A Hybrid HUMVEE for example still gets poor gas milage compared to a regular non-hybrid Honda Civic. However, a hybrid version of ANY car will be more fuel efficient than their non-hybrid types. It just depends on each individual car's ability.
The hybrid (mixture) plant gets the adaptive characteristics of both its parent plants and makes it stronger than its natural plants.
Hybrid orbitals form stronger bonds because they allow for better overlap between atomic orbitals during bond formation. By mixing different types of atomic orbitals (such as s and p), hybridization creates orbitals that are more directional and have shapes conducive to effective overlap with orbitals from other atoms. This enhanced overlap results in stronger covalent bonds, leading to greater stability in the molecular structure. Additionally, hybridization helps to minimize electron repulsion, further stabilizing the bonded system.