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Line 99: |
| choice4="Progesterone" | | choice4="Progesterone" |
| correctchoice="3" | | correctchoice="3" |
− | feedback3="'''Correct!''' Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Gestation -Maternal Recognition of Pregnancy - Anatomy & Physiology#Ruminants |WikiVet Article: maternal recognition of pregnancy]]." | + | feedback3="'''Correct!''' Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Maternal Recognition of Pregnancy - Anatomy & Physiology#Ruminants |WikiVet Article: maternal recognition of pregnancy]]." |
− | feedback5="'''Incorrect.''' The pig conceptus produces oestradiol as the signal for maternal recognition of pregnancy. Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Gestation -Maternal Recognition of Pregnancy - Anatomy & Physiology#Sow|WikiVet Article: maternal recognition of pregnancy]]." | + | feedback5="'''Incorrect.''' The pig conceptus produces oestradiol as the signal for maternal recognition of pregnancy. Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Maternal Recognition of Pregnancy - Anatomy & Physiology#Sow|WikiVet Article: maternal recognition of pregnancy]]." |
− | feedback2="'''Incorrect.''' The lifespan of the corpora lutea in a pregnant queen is extended to ~60 days by the action of pituitary prolactin. There is no need for a conventional 'maternal recognition of pregnancy'. Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Gestation -Maternal Recognition of Pregnancy - Anatomy & Physiology#Queen|WikiVet Article: maternal recognition of pregnancy]]." | + | feedback2="'''Incorrect.''' The lifespan of the corpora lutea in a pregnant queen is extended to ~60 days by the action of pituitary prolactin. There is no need for a conventional 'maternal recognition of pregnancy'. Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Maternal Recognition of Pregnancy - Anatomy & Physiology#Queen|WikiVet Article: maternal recognition of pregnancy]]." |
− | feedback1="'''Incorrect.''' In the mare, the conceptus does produce proteins to effect the recognition of pregnancy, but specific roles are unknown. Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Gestation -Maternal Recognition of Pregnancy - Anatomy & Physiology#Mare|WikiVet Article: maternal recognition of pregnancy. ]]" | + | feedback1="'''Incorrect.''' In the mare, the conceptus does produce proteins to effect the recognition of pregnancy, but specific roles are unknown. Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Maternal Recognition of Pregnancy - Anatomy & Physiology#Mare|WikiVet Article: maternal recognition of pregnancy. ]]" |
− | feedback4="'''Incorrect.''' Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Gestation -Maternal Recognition of Pregnancy - Anatomy & Physiology#Ruminants |WikiVet Article: maternal recognition of pregnancy]]." | + | feedback4="'''Incorrect.''' Cattle blastocysts produce a small protein called bovine interferon tau (BIFN-τ)from day 13-21 after ovulation. It binds to the uterine endometrium and inhibits the synthesis of oxytocin receptors. As a result, there is no production of the luteolytic factor PGF2α and the corpus luteum is maintained. [[Maternal Recognition of Pregnancy - Anatomy & Physiology#Ruminants |WikiVet Article: maternal recognition of pregnancy]]." |
| image= ""> | | image= ""> |
| </WikiQuiz> | | </WikiQuiz> |