Short strands of DNA move more quickly than long strands because they are smaller and can navigate through obstacles more easily.
Short fragments travel more quickly toward the positive pole during gel electrophoresis. This is because smaller DNA fragments can move more easily through the pores of the gel matrix, leading to faster migration rates compared to larger fragments.
Replication forks tend to unwind the DNA helix, separate the double strands, and synthesize new strands of DNA in opposite directions. They are formed during DNA replication and move along the DNA template strands as replication progresses.
To separate strands of DNA based on their size. Shorter strands will migrate more slowly than larger strands. ** Also because DNA is slightly negatively charged, it will move toward the positive end of the electrodes... this is why the current is used when running a gel. Short strand move further** than large ones due to the gel resistance.
An octopus can survive on land for a short period of time, typically less than an hour, as they need water to breathe and move properly.
Anaphase is the phase in which chromosome strands separate and move towards opposite ends of the cell. This movement is facilitated by spindle fibers pulling the sister chromatids apart towards the centrosomes at opposite poles of the cell.
Short
No, "move" does not have a long vowel sound. "Move" is pronounced with a short "o" sound, like in the word "love".
Heavier DNA strands move slower through the gel due to their larger size and mass, causing them to travel shorter distances during the same amount of time compared to lighter DNA strands. This results in the heavier DNA bands being closer together on the gel, as they have not traveled as far as the lighter bands in the same time frame.
They move a short period of time because hopping is tiring to the legs
Shorter strands of DNA move faster in gel electrophoresis because they can travel through the pores of the gel more easily than longer strands. This is because shorter strands experience less resistance and can navigate through the gel matrix more quickly.
Short fragments travel more quickly toward the positive pole during gel electrophoresis. This is because smaller DNA fragments can move more easily through the pores of the gel matrix, leading to faster migration rates compared to larger fragments.
6
No. It has a long O sound and a silent E.
Long dry hair tends to create static electricity when brushed, causing the hair strands to repel each other. This repulsion occurs due to the friction between the hair and the brush, resulting in the strands moving away from each other. Conditioning the hair or using an anti-static spray can help reduce this effect.
they dont have periods.
The word "move" has an OO sound (one version of a long U). The E is silent.
Replication forks tend to unwind the DNA helix, separate the double strands, and synthesize new strands of DNA in opposite directions. They are formed during DNA replication and move along the DNA template strands as replication progresses.