Stuff
A virus is a small strand of DNA or RNA that copies itself.
No, rolling a ball of clay into a long strand is a physical change, not a chemical change. The clay's composition remains the same; only its shape is altered.
A single strand of RNA that loops back on itself is called a hairpin loop or a stem-loop. It forms when the RNA sequence folds back on itself due to complementary base pairing within the same strand, creating a double-stranded region. These structures play important roles in various biological processes, such as gene regulation and enzymatic activity.
It is a mutated strand sinc e mutated strand isn't an exact copy of the original.
Paul Strand is 6 feet tall. He weighs 190 pounds. He bats right and throws left.
No, hair is not alive. Hair follicles at the base of the hair strand are living, but the hair strand itself is made up of dead cells and proteins.
You have a muscle at the bottom of a hair strand. Your hair itself has no muscles.
DNA replication. During this process, a DNA molecule makes a copy of itself by unwinding and separating into two strands, with each strand serving as a template for the synthesis of a new complementary strand.
Euphoria although some people have said it had no effect on them, its potency depends on the strand.
DNA strands are said to be complementary because they both match up with eachother; A with T and C with G. So if you have the strand ATGGCTA the complementary strand (the other half of the double helix) would read TACCGAT. So if you know one side of the strand then you can describe the whole.
True, during DNA replication, the DNA molecule unwinds and each strand serves as a template for the synthesis of a new complementary strand. This results in two identical DNA molecules, each containing one original strand and one newly synthesized strand.
Nothing happens immediately. But when the two strands separate and construct new strands. The bottom strand will replicate the old top strand. The top strand will create a changed bottom strand. The two new cells after cell division will have different genetic codes. Most changes stop at this point because the "NEW" code won't be viable. Now if the change on the top immediately changes the bottom. Then the cell itself stops functioning unless it is a viable change.