[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"$f223mluYGhOLF9PH724mDBjMdE9xuTTZ0z7S0-iTr7l8":3},{"answer":4,"createTime":5,"id":6,"options":7,"origin":13,"question":20,"related":21,"source":33,"type":34},[],"2025-11-17 21:12:11",233319490,[8,9,10,11,12],"ADP","NADPH +H +","含有不同糖原子的糖类物质","NAD +","CoASH",{"count":14,"courseId":15,"courseImg":16,"courseName":17,"workId":18,"workName":19},109,"53e1d2ef4961cca8eea3e23969ad2cb9","https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F03a579384a6dc297c89809b582fcc767.png","默认课程","work_46368679","《永遇乐》测试题(21.10)","磷酸戊糖途径的真正意义在于产生许多中间物如核糖,同时还产生",[22,35,45,55,64,74,84,95,105,115],{"answer":23,"createTime":24,"id":25,"options":26,"question":32,"source":33,"type":34},[],"2025-11-29 16:41:21",233319481,[27,28,29,30,31],"3-磷酸甘油醛脱氢酶","丙酮酸激酶","6-磷酸果糖激酶-1","己糖激酶","丙酮酸羧化酶","患者,女,19岁,56kg,有减肥史,午后不食,傍晚短期饥饿糖异生加强,下面哪种酶只在糖异生中起作用","v1",0,{"answer":36,"createTime":5,"id":37,"options":38,"question":44,"source":33,"type":34},[],233319482,[39,40,41,42,43],"磷酸戊糖途径","糖酵解","糖有氧氧化","糖异生","糖原分解","动物长期饥饿后,其肝细胞主要糖代谢途径",{"answer":46,"createTime":24,"id":47,"options":48,"question":54,"source":33,"type":34},[],233319483,[49,50,51,52,53],"乙酰CoA","丙酰CoA","酮体","甘油","硬脂酸","下列脂肪降解和氧化产物可以转化为糖的有",{"answer":56,"createTime":24,"id":57,"options":58,"question":63,"source":33,"type":34},[],233319484,[59,60,61,31,62],"乙酰辅酶A羧化酶活性","柠檬酸脱氢酶活性","乳酸脱氢酶活性","丙酮酸脱氢酶系活性","患儿3岁,身高和体重正常,但头围属于小颅范围.体检发现患儿的视神经严重萎缩,语言功能比同龄儿童较低下.患儿反射过强和极度过敏,步态共济失调严重,肌张力过弱.临床检测血中乳酸含量5mmol\u002FL(正常值为0.5~1.5mmol\u002FL),血中丙酮酸也增多.患儿可能缺乏",{"answer":65,"createTime":5,"id":66,"options":67,"question":73,"source":33,"type":34},[],233319485,[68,69,70,71,72],"从门静脉经过肝的葡萄糖立即被肝摄取合成糖原","葡萄糖在血循环中,快速被肝摄取,并合成糖原","可以直接合成糖原进行储存","在外周组织分解成三碳化合物,再到肝异生成糖原","先在肌肉合成肌糖原,以后再转移到肝","男性,38岁,95kg,身高170cm.减肥第3天,饥饿后再进食时,摄入的葡萄糖是如何合成肝糖原的",{"answer":75,"createTime":24,"id":76,"options":77,"question":83,"source":33,"type":34},[],233319486,[78,79,80,81,82],"33","11","10","31或33","31","从糖原开始1摩尔葡萄糖经糖的有氧氧化可产生ATP摩尔数为",{"answer":85,"createTime":86,"id":87,"options":88,"question":94,"source":33,"type":34},[],"2025-11-13 16:03:44",233319487,[89,90,91,92,93],"乙酰辅酶A水平下降","ATP\u002FAMP比值减少","柠檬酸浓度降低","6-磷酸果糖浓度增高","ATP\u002FAMP比值增高","使糖酵解减弱和糖异生增强的主要调节因素是",{"answer":96,"createTime":5,"id":97,"options":98,"question":104,"source":33,"type":34},[],233319488,[99,100,101,102,103],"乳糖","淀粉","糖原","葡萄糖","蔗糖","糖在动物体内的储存形式是",{"answer":106,"createTime":24,"id":107,"options":108,"question":114,"source":33,"type":34},[],233319489,[109,110,111,112,113],"麦芽糖酶","脱支酶","α-葡萄糖苷酶","α-临界糊精酶","分支酶","可水解动物糖原分支处的键的酶是",{"answer":116,"createTime":5,"id":6,"options":117,"question":20,"source":33,"type":34},[],[8,9,10,11,12]]