Endocrinologists treat conditions like thyroid diseases, infertility, growth issues, osteoporosis, metabolic disorders, and diabetes :)
Answer:
ENGLISH:
They provide structure and support, facilitate growth through mitosis, allow passive and active transport, produce energy, create metabolic reactions and aid in reproduction.
ESPANOL:
Proporcionan estructura y soporte, facilitan el crecimiento a través de la mitosis, permiten el transporte pasivo y activo, producen energía, crean reacciones metabólicas y ayudan en la reproducción.
Answer:
Yes, both Coumadin and Heparin can be given at the same time.
Explanation:
Both Coumadin and Heparin can be given at the same time. Heparin is is a blood thinner (anti-coagulant) used to prevent and treat blood clots.The patient has been diagnosed with Deep Vein Thrombosis (DVT) which is the formation of blood clot in a vein located deep in the body (usually the lower thigh or leg). The heparin drip she is being administered will help treat the blood clot
Coumadin is also an anticoagualnt and is used for treating blood clotts. However, it takes days (about 3-4) before the treatment starts to work. It stops the synthesis of the four vitamin K–dependent clotting factors in the liver (factors II, VII, IX, X).
Both Heparin and Coumadin are overlapped for at least five days as they work differently. The Heparin is discontinued after anticoagulation occurs and the client starts to be treated with coumadin.
Answer:
4) The mRNA was shorter because of Intron splicing
Explanation:
In eukaryotic cells, the process of gene transcription uses a fragment of DNA as template in order to synthesize a complementary single-stranded RNA molecule known as primary messenger RNA transcript or 'pre-mRNA', which is then processed to yield a mature messenger RNA (mRNA). This mature mRNA is finally used as template to synthesize a polypeptide chain (i.e., a protein) by the process of translation. RNA splicing refers to the processing mechanism by which a pre-mRNA is transformed into a mature mRNA. During RNA splicing, non-coding regions of the pre-mRNA called 'introns' are removed, whereas the remaining coding regions called 'exons' are joined toghether to form a mature mRNA. In consequence, RNA splicing generates an mRNA that is shorter than the originally transcribed gene sequence.
