Answer:
D, burning less than 400 calories per hour
Explanation:
the more calories burned, the better. You want to burn more than 400, not less than. Hope that this helps you and have a great day :)
Answer:
If a person is passed out due to alcohol overdose you need to perform the following steps :-
- Try to wake him up by pinching in the sternum or the ear lob hard enough so it causes pain
- If he still doesn't wake up ,tell another person to call 911
- Meanwhile , you should lean the person forward ,best if he is on the floor to eliminate the chances of falling
- Do not leave the person alone at any cost ,because there are chances of assault if the surroundings are not safe
- When the 911 arrives ,tell them all the details about all the activities and the drinks that were present
- Rest will be taken care by the the medical staff
Note :-even if the person is not passed out but showing certain signs doesn't mean they do not need help ,they are equally in danger .The signs may seem like
- Vomiting
- Less physical activity
- Seizures
- Less than 8 breaths per minute
- Reduced body temperature
Answer:the correct option will be
The virus forced the monkey cell to make proteins for its envelope.
Explanation:Enveloped viruses contain nucleocapsids of either icosahedral (e.g. herpesviruses, togavirus) or helical symmetry (e.g. influenza). The outer envelope is a lipid bilayer derived from host cell membrane in which both viral glycoproteins and some host proteins are embedded.
Many enveloped viruses complete their replication cycle by forming vesicles that bud from the plasma membrane. Some viruses encode “late” (L) domain motifs that are able to hijack host proteins involved in the vacuolar protein sorting (VPS) pathway, a cellular budding process that gives rise to multi vesicular bodies and that is topologically equivalent to virus budding. Although many enveloped viruses share this mechanism, examples of viruses that require additional viral factors and viruses that appear to be independent of the VPS pathway have been identified. Alternative mechanisms for virus budding could involve other topologically similar process such as cell abscission, which occurs following cytokinesis, or virus budding could proceed spontaneously as a result of lipid microdomain accumulation of viral proteins. Further examination of novel virus-host protein interactions and characterization of other enveloped viruses for which budding requirements are currently unknown will lead to a better understanding of the cellular processes involved in virus assembly and budding.
