Answer:
The species is not prey to what is already living there and as a result may reproduce uncontrollably and end up causing the other species to go extinct by stealing the resources they need.
Explanation:
Answer:
This is an incomplete question.
Below should be the complete one with options:
A researcher introduces a signal produced by bacteria to eukaryotic cells that she is culturing in the laboratory. Remarkably, she notices that this signal results in an increase in eukaryotic gene expression. How is this possible?
A.This gene expression is likely independent of the presence of the prokaryotic signal.
B.The signal is either similar in structure to a ligand used by eukaryotes, or this signaling pathway is utilized by both prokaryotes and eukaryotes.
C.This signaling pathway might actually be utilized by both prokaryotes and eukaryotes.
D.This signal is likely similar in structure to ligands utilized by eukaryotic cells.
E.This prokaryotic signal likely travels directly into eukaryotic cells and acts as a transcription factor.
THE CORRECT ANSWER IS B
B.The signal is either similar in structure to a ligand used by eukaryotes, or this signaling pathway is utilized by both prokaryotes and eukaryotes.
Resources are consumed exponentially during all phases is a characteristic of exponential population growth
<u>Explanation:</u>
The leveraging pattern of rising populace volume is estimated as exponential growth. Improvements in Population extension valuation are not required for this exponential growth. Variations in populations that breed annually as well as those that breed more regularly can explain exponential growth that emerges repeatedly in nature.
Exponential population growth can begin to exciting environmental debasement and vital expenses to regulate insect species. The growth rate rises as the population volume rises. The more extended the population matures, the more active it grows.
