Answer:
Hey <em>mate </em><em>your</em><em> answer</em><em> is</em><em> </em><em>D.</em>
Explanation:
<h3><em>your</em><em> </em><em>picture</em><em> </em><em>shows </em><em>the</em><em> </em><em>metaphase </em><em>and</em><em> </em><em>after</em><em> </em><em>metaphase.</em><em> </em></h3><h3><em>Anaphase </em><em>occurs</em><em> in</em><em> </em><em>which </em><em>the sister chromatids began attaching to centrosomes on opposite ends of the cell in metaphase, they're prepped and ready to start separating and forming genetically-identical daughter chromosomes during anaphase.</em></h3>
Answer:The mother's antibodies can destroy the red blood cells of the fetus.
Explanation:
If a woman with an Rh negative (Rh-) blood group has a child with an Rh positive (Rh +) male, there is a possibility that the child is also Rh +. Although this has no consequences throughout pregnancy itself, as the mother's and fetus's blood does not come into direct contact during pregnancy, it can have serious consequences for subsequent pregnancies.
In fact, rupture of the placenta at the time of childbirth may allow some red blood cells from the fetus to pass into the maternal circulation and cause sensitization, meaning the woman's body will detect them and begin to make anti-human antibodies. Rh that will persist indefinitely in the blood. If a woman regenerates another Rh + child, the anti-Rh antibodies present in her blood will pass easily into the fetus's blood through the placenta and attack and destroy the fetus' red blood cells, which can lead to severe fetal anemia and serious repercussions that sometimes lead to intrauterine death.
Answer:
Flowers are derived evolutionary from modified <u>leaves</u>.
Explanation:
Flowers are modified leaves possessed only by the angiosperms, which are relatively late to appear in the fossil record. The flowering plants have long been assumed to have evolved from within the gymnosperms; according to the traditional morphological view, they are closely allied to the Gnetales.
Answer:
Read the explanation section.
Explanation:
1. Will the DNA which contain cancer can passed from one generation to another generation?
2. What will be happen to the next generation if parents have extra chromosomal DNA?
3. Will genes of AIDS can transfer to the next generation because of heredity?
