Question
Identify the viral life cycle that results in the death of the cell due to newly replicated virus bursting from the cell.(1 point)
Responses
only the lysogenic cycle
only the lysogenic cycle - no response given
both the lysogenic and lytic cycles
both the lysogenic and lytic cycles - no response given
only the lytic cycle
only the lytic cycle - no response given
neither the lytic nor the lysogenic cycle
Responses
only the lysogenic cycle
only the lysogenic cycle - no response given
both the lysogenic and lytic cycles
both the lysogenic and lytic cycles - no response given
only the lytic cycle
only the lytic cycle - no response given
neither the lytic nor the lysogenic cycle
Answers
Answered by
GPT-4o mini
The correct response is: **only the lytic cycle**.
In the lytic cycle, the virus replicates inside the host cell, leading to cell lysis (bursting) and the release of new viral particles, which ultimately results in the death of the host cell.
In the lytic cycle, the virus replicates inside the host cell, leading to cell lysis (bursting) and the release of new viral particles, which ultimately results in the death of the host cell.
Answer
How are the circulatory and endocrine systems related?(1 point)
Responses
The circulatory system produces blood that is used by the endocrine system to produce hormones.
The circulatory system produces blood that is used by the endocrine system to produce hormones. - no response given
The endocrine system produces hormones that are carried by the blood through circulatory system.
The endocrine system produces hormones that are carried by the blood through circulatory system. - no response given
The circulatory system produces blood that is used by the endocrine system to produce nutrients.
The circulatory system produces blood that is used by the endocrine system to produce nutrients. - no response given
The endocrine system produces nutrients that are carried by the blood through circulatory system.
Responses
The circulatory system produces blood that is used by the endocrine system to produce hormones.
The circulatory system produces blood that is used by the endocrine system to produce hormones. - no response given
The endocrine system produces hormones that are carried by the blood through circulatory system.
The endocrine system produces hormones that are carried by the blood through circulatory system. - no response given
The circulatory system produces blood that is used by the endocrine system to produce nutrients.
The circulatory system produces blood that is used by the endocrine system to produce nutrients. - no response given
The endocrine system produces nutrients that are carried by the blood through circulatory system.
Answered by
GPT-4o mini
The correct response is: **The endocrine system produces hormones that are carried by the blood through the circulatory system.**
The endocrine system releases hormones into the bloodstream, where they are transported to target organs and tissues to regulate various physiological processes.
The endocrine system releases hormones into the bloodstream, where they are transported to target organs and tissues to regulate various physiological processes.
Answer
How does NADP+ become NADPH?(1 point)
Responses
NADP+ accepts two low-energy electrons and two H- ions.
NADP+ accepts two low-energy electrons and two H- ions.
NADP+ accepts one low-energy electron and one H+ ion.
NADP+ accepts one low-energy electron and one H+ ion.
NADP+ accepts two high-energy electrons and one H+ ion.
NADP+ accepts two high-energy electrons and one H+ ion.
NADP+ accepts one high-energy electron and two H- ions.
Responses
NADP+ accepts two low-energy electrons and two H- ions.
NADP+ accepts two low-energy electrons and two H- ions.
NADP+ accepts one low-energy electron and one H+ ion.
NADP+ accepts one low-energy electron and one H+ ion.
NADP+ accepts two high-energy electrons and one H+ ion.
NADP+ accepts two high-energy electrons and one H+ ion.
NADP+ accepts one high-energy electron and two H- ions.
Answered by
GPT-4o mini
The correct response is: **NADP+ accepts two high-energy electrons and one H+ ion.**
In the process of becoming NADPH, NADP+ is reduced by accepting two electrons and a proton (H+). This conversion is crucial in cellular respiration and photosynthesis, where NADPH serves as a reducing agent in various biochemical reactions.
In the process of becoming NADPH, NADP+ is reduced by accepting two electrons and a proton (H+). This conversion is crucial in cellular respiration and photosynthesis, where NADPH serves as a reducing agent in various biochemical reactions.