The nucleus would be damaged.
Become more damaged
Large molecules would be able to enter and damage the nucleus answer from Apex
The nucleus would become damaged.
Become more damaged
the nucleus would be damaged. according to apex. hope this helps.:)
That would expose the DNA to possible damage.
The experiment that demonstrated the function of aquaporin was conducted by Peter Agre in 1992. He and his team discovered that the presence of aquaporin in red blood cells facilitated the rapid transport of water across cell membranes. This experiment provided the first evidence for the existence and role of aquaporin proteins in facilitating water transport across biological membranes.
Thylakoid membranes of chloroplasts resemble those of cyanobacteria because chloroplasts are believed to have evolved from endosymbiotic cyanobacteria. During evolution, the cyanobacteria that were engulfed by a host cell eventually became mutually beneficial, leading to the development of chloroplasts. The structural similarity between the thylakoid membranes of chloroplasts and cyanobacteria is a remnant of this evolutionary relationship.
The xylem cells or vessel doesn't have a nucleus. It used to be an ordinary cell but it got filled with lignin (which is waterproof) So the contents of the cell died and it became hallow and dead I hope this answers your question
it would die as harmful substances entered the cells. (APEX)
it would die as harmful substances entered the cells. (APEX)
it would die as harmful substances entered the cells. (APEX)
it would die as harmful substances entered the cells. (APEX)
it would die as harmful substances entered the cells. (APEX)
the nucleus would be damaged. according to apex. hope this helps.:)
it would die as harmful substances entered the cells. (APEX)
it would die as harmful substances entered the cells. (APEX)
it would die as harmful substances entered the cells. (APEX)
The nucleus would be damaged.
It would die as harmful substances enteres the cells.
It would die as harmful substances enteres the cells.