Answer:
Educating people on the use of antibiotics
Explanation:
Antibiotics are becoming less effective because patients are not taking their full courses and providers are over prescribing them. Many people demand antibiotics not knowing that they are not useful for treating viral and fungal infections, thus allowing the bacteria already present inside of them to develop resistance. This also happens when a patient doesn't take all of their antibiotics. They may think that they feel fine after a few days of taking antibiotics and that they no longer have to take them, but in reality they are not free from the disease causing bacteria. The bacteria then have a chance to multiply again, this time with resistance to the treatment. Educating patients on conditions like sepsis and their mortality will help with medication adherence to decrease the likelihood of antibiotic abuse
<span>Adenine and guanine are both found in DNA and RNA</span>
1. absorption
root
<span>2. support of leaves </span>
stem
<span>3. food-making </span>
<span>leaves </span>
<span>4. seed production </span>
flower
<span>5. seed dispersal </span>
<span>fruit</span>
Answer:
Hormone levels are changing during menstruation and ovulation. The general trend of hormones after ovulation -when an individual approaches menstruation- is that hormone levels generally decrease.
Explanation:
In a woman's menstrual cycle, hormone levels tend to increase or decrease according to reproductive requirements. On the days close to ovulation, the hormones must prepare for the release of an egg and the preparation of the female reproductive organs for the possibility of an embryo.
If fertilization of the egg does not occur, hormone levels generally tend to decrease until menstruation occurs.
In the attached graph (picture) the behaviour of hormones in an adult woman can be clearly seen, where estradiol, follicle-stimulating hormone, progesterone and luteinizing<u> hormone tend to decrease their levels at the end of the luteal phase, in the proximity of menstruation</u>.
The first piece of evidence that needed to be found to support the endosymbiotic hypothesis was whether or not mitochondria and chloroplasts have their own DNA and if this DNA is similar to bacterial DNA. This was later proven to be true for DNA, RNA, ribosomes, chlorophyll (for chloroplasts), and protein synthesis.
