Jellyfish and human DNA are both made up of the same 4 nucleotide bases (adenine, thymine, cytosine, and guanine) but the arrangement and sequences of these bases differ between the two species. Additionally, jellyfish DNA may contain genes that enable them to bioluminesce, which is a characteristic not found in human DNA. Overall, the genetic makeup of jellyfish is optimized for their marine environment and unique biological functions.
Less than 1% of the world's water is available for immediate human use, with the rest being stored in glaciers, ice caps, and underground aquifers.
Coiling of DNA can influence gene expression by affecting the accessibility of genes to transcription factors and RNA polymerase. Inactive genes are often more tightly coiled, making them less accessible for transcription. Conversely, active genes are typically less tightly coiled, allowing for easier access by transcriptional machinery.
Less than one percent.
If we take a example of cell then if the solution outside the cell containing less solutes as compare to inside of cell then that solution is hypotonic and if the solution outside the cell contain more solute concentration then it is hypertonic solution
less than 1%
97%
Yes. The difference in our DNA is less than one percent.
1%, .1% or less, depending on which source you consult.
The human skin has a variety of shades, therefore more contributors. sorry i know its not the best answer...
They will not. In recent years probability is less than 50%. The latest estimate is 48%
less
A recessive gene
NO. 0.45% is not less than 0.01 %.
50% less 46.67% = 3.33%
10 percent less of 125 is 112.5.
is stored in ice caps and glaciers, 30 percent is groundwater, and less than 1 percent is surface water like lakes and rivers. This freshwater is essential for supporting ecosystems, agriculture, and human survival.