非蛋白氮英語怎麼說及英文翻譯
❶ 在血常規中BUN和cr表示的是什麼意思
BUN是英文血blood urea nitrogen 的縮寫,翻譯為血尿素氮,通常簡稱為尿素氮。尿素氮—腎功能主要指標之一。 尿素氮是人體蛋白質代謝的主要終末產物。氨基酸脫氨基產生NH3,和C02,兩者在肝臟中合成尿素,每克蛋白質代謝產生尿素0.3g。尿素中氮含量為28/60,幾乎達一半。通常腎臟為排泄尿素的主要器官,尿素從腎小球濾過後在各段小管均可重吸收,但腎小管內尿流速越快重吸收越少,也即達到了最大清除率。和血肌酐一樣,在腎功能損害早期,血尿素氮可在正常范圍。當腎小球濾過率下降到正常的50%以下時,血尿素氮的濃度才迅速升高。 正常情況下,血尿素氮與肌酐之比(BUN/Scr)值約為10,高蛋白飲食、高分解代謝狀態、缺水、腎缺血、血容量不足及某些急性腎小球腎炎,均可使比值增高,甚至可達20~30;而低蛋白飲食,肝疾病常使比值降低,此時可稱為低氮質血症。 正常成人空腹BUN為3.2-7.1mmol/L(9-20mg/dl)。各種腎實質性病變,如腎小球腎炎、間質性腎炎、急慢性腎功能衰竭、腎內佔位性和破壞性病變均可使血尿素氮增高。多腎外因素也可引起血尿素氮升高,如能排除腎外因素,BUN≥21.4mmol/L(60mg/dl)即為尿毒症診斷指標之一。
CR是血液肌酐 臨床上檢測血肌酐是常用的了解腎功能的主要方法之一。那麼肌酐是怎麼一回事呢?內生肌酐是人體肌肉代謝的產物。在肌肉中,肌酸主要通過不可逆的非酶脫水反應緩緩地形成肌酐,再釋放到血液中,隨尿排泄。因此血肌酐與體內肌肉總量關系密切,不易受飲食影響。肌酐是小分子物質,可通過腎小球濾過,在腎小管內很少吸收,每日體內產生的肌酐,幾乎全部隨尿排出,一般不受尿量影響。腎功能不全時,肌酐在體內蓄積成為對人體有害的毒素。血漿肌酐的正常上限值為100微摩爾/升左右。
腎單位時間內,把若干毫升血漿中的內生肌酐全部清除出去,稱為內生肌酐清除率(Ccr)。內生肌酐清除率試驗,可反映腎小球濾過功能和粗略估計有效腎單位的數量,故為測定腎損害的定量試驗。因其操作方法簡便,干擾因素較少,敏感性較高,為目前臨床常用的較好的腎功能試驗之一。
臨床意義
(1)當急、慢性腎小球腎炎等使腎小球濾過功能減退時,血肌酐可升高。同時應在已知內生肌酐清降率的基礎上穿插著測定血肌酐作為追蹤觀察的指標。
(2)尿素氮與肌酐同時測定更有意義,如二者同時升高,說明腎臟有嚴重損害。
內生肌酐清除率公式為Ccr=(140-年齡)×體重(kg)/72×Scr(mg/dl) 或Ccr=[(140-年齡)×體重(kg)]/[0.818×Scr(umol/L)] 內生肌酐清楚率計算過程中應注意肌酐的單位 女性按計算結果×0.85。
❷ 一氧化二氮用英語怎麼說
一氧化氮 Nitrogen monoxide
一氧化二氮 Nitrous oxide
❸ 請求幫忙英文翻譯!!
Complications of hypertension 【】
Patients with essential hypertension as a result of sustained increased arterial pressure, lead to systemic small artery, thus affecting the blood supply to tissues and organs, resulting in a variety of serious consequences, as a complication of hypertension. Common complication of high blood pressure have coronary heart disease, diabetes, heart failure, high blood lipids, kidney disease, peripheral arterial disease, stroke, such as left ventricular hypertrophy. In the various complications of high blood pressure to heart, brain and kidney damage to the most significant.
Heart failure. Heart (mainly the left ventricle) to overcome the body e to small artery caused by increased peripheral resistance and strengthen the work, the occurrence of compensatory myocardial hypertrophy. Progressive left ventricular wall muscle hypertrophy, the heart cavity is also a significant expansion, increase in heart weight, when the lack of compensatory function, they become hypertensive heart disease, myocardial contractility of heart failure caused a serious decline. Often accompanied by hypertensive patients e to have coronary atherosclerosis, so that increasing the burden on the heart in ischemia, hypoxia, and thus more susceptible to heart failure.
Cerebral hemorrhage. Myometrial small arteries of the brain and the outer membrane are developed, the wall is weak, hardening of the brain occur if accompanied by a small artery spasm, it will be the occurrence of bleeding or rupture of hemorrhage (ie, cerebral hemorrhage). Cerebral hemorrhage is the most serious late complications of hypertension. Bleeding, including multi-site near the capsule and basal ganglia, clinically manifested as hemiplegia, aphasia, etc..
Renal insufficiency. Since the goal of small renal arteries hardening, so that a large number of renal units (that is, glomerular and tubular), e to chronic ischemia and atrophy, and followed by fibrous tissue hyperplasia (such as high blood pressure and kidney disease hardening). Remnant nephron compensatory hypertrophy occurred, expansion. Sclerosis in the kidney, the urine can occur in patients with more protein and more red blood cells. Late in the disease, e to the destruction of a large number of renal units, resulting in excretion of renal dysfunction, metabolic end procts, such as non-protein nitrogen and so on, not all discharges and retention in the body, water and salt metabolism and acid-base balance disorder also occurred, caused by self-poisoning, there uremia.
Diagnosis of hypertension
Hypertensive patients should be the initial physical examination include the following:
1, blood pressure. Comparison of blood pressure on both sides of the verification,
Check the value the higher side. If both sides of the blood pressure difference greater than 20 mm Hg, the lower side of the brachial artery may be more than the great vessels especially the subclavian artery occurred in a narrow, narrow is the most common cause of atherosclerosis, obstruction.
2, height, weight and waist circumference. Obesity, obesity in particular to mind is the importance of hypertension risk factors, as the saying goes, the longer the belt, the shorter life expectancy.
3, observed by ophthalmos retinopathy. Changes in retinal arterial blood pressure may reflect the small peripheral artery disease, peripheral artery small extent the more serious, more serious heart load.
4, whether or not the neck vascular murmur, jugular vein or goiter怒張, abdominal vascular murmur and mass, such as peripheral arterial pulse in order to exclude secondary hypertension.
5, cardiopulmonary examination and inspection of the nervous system to understand whether the hypertension caused by cardiovascular and cerebrovascular complications.
Routine examination of hypertensive patients include the following:
1, conventional hematuria. If there is anemia, hematuria, protein, etc., should be considered for the renal hypertension, or hypertension has led to serious kidney damage.
2, blood biochemistry. Such as potassium, sodium, liver and kidney function, blood glucose, blood lipids, such as. Low serum potassium have the possibility of secondary hypertension. Check liver and kidney function in patients with help doctors choose based on antihypertensive drugs, blood glucose test lipid can understand there is no cardio-cerebral vascular diseases other risk factors.
3, electrocardiogram. Will help to understand whether patients with essential hypertension hypertension-inced cardiac hypertrophy, arrhythmia, or myocardial ischemia.
❹ 幾個【生物化學】英文縮寫!急急急!
FAD:黃素腺嘌呤二核苷酸
HnRNAG :核內不均一RNA 為存在於真核生物細胞核中的不穩定、大小不均的一組高分子RNA(分子量約為105~2×107,沉降系數約為30—100S)之總稱。占細胞全部RNA之百分之幾,在核內主要存在於核仁的外側。認為hnRNA多屬信使RNA(messenger ribonucleic acid,mRNA)之先驅體,包括各種基因的轉錄產物及其成為mRNA前的各中間階段的分子,在5』末端多附有間隙結構,而3』的末端附有多聚腺苷酸聚合酶分子。這些hn-RNA在受到加工之後,移至細胞質,作為mRNA而發揮其功能。大部分的hnRNA在核內與各種特異的蛋白質形成復合體而存在著。
參考資料:http://ke..com/view/299730.htm?fr=ala0
His:代表組氨酸(Histidine)
NADP:煙醯胺腺嘌呤二核苷酸磷酸(nicotinamide adenine dinucleotide phosphate)
TPP:三苯基膦
FMN:
英文全稱為:flavin mononucleotide,中文名:黃素單核苷酸
是黃素蛋白(flavoprotein)的輔基。
生物氧化時,氧化呼吸鏈由4中具有傳遞電子能力的復合體組成,線粒體內膜蛋白質用膽酸等去污劑處理及離子交換層析分離,磕純化出內膜的呼吸鏈成分,得到這4中仍具有傳的電子功能的蛋白質-酶復合體(complex),分別為復合體Ⅰ,復合體Ⅱ,復合體Ⅲ,復合體Ⅳ,各含有不同的組分。其中復合體Ⅰ又稱為NADH-泛醌還原酶,在三羧酸循環和脂酸β-氧化等過程的脫氫酶催化反應中,大部分代謝物脫下的2H是由氧化型煙醯胺腺嘌呤二核苷酸(nicotinamide adenine dinucleotide,NAD+)接受,形成還原型煙醯胺腺嘌呤二核苷酸(NADH+H+)。NADH+H+的電子經復合體Ⅰ繼續傳遞氧化。復合體Ⅰ由三部分組成,成「L「形,其一臂突出線粒體基質,由兩部分組成,其中之一就是黃素蛋白。而FMN即為黃素蛋白的輔基。
參考資料:http://ke..com/view/2117062.htm?fr=ala0
❺ 有誰可以幫我列出常見生化名詞的縮寫及中英文全稱生物科學專業英語考試用!感謝,感謝!
生物化學英文縮寫符號
二十種氨基酸 甘氨酸 Gly G 丙氨酸 Ala A 纈氨酸 Val V 亮氨酸 Leu L 異亮氨酸 Ile I
甲硫氨酸(蛋氨酸) Met M 脯氨酸 Pro P 苯丙氨酸 Phe F 酪氨酸 Tyr Y 色氨酸 Trp W
精氨酸 Arg R 賴氨酸 Lys K 組氨酸 His H
天門冬氨酸 Asp D 谷氨酸 Glu E
半胱氨酸 Cys C 絲氨酸 Ser S 蘇氨酸 Thr T 天冬醯胺 Asn N 谷氨醯胺 Gln Q
1.NAD+ (nicotinamide adenine
dinucleotide):煙醯胺腺嘌呤二核苷酸;輔酶Ⅰ。
2.FAD(flavin adenine dinucleotide):黃素腺嘌呤二核苷酸。
3.THFA(tetrahydrofolic acid):四氫葉酸。 4.NADP+(nicotinamide adenine dinucleotide phosphate):煙醯胺腺嘌呤二核苷酸磷酸;輔酶Ⅱ。
5.FMN(flavin mononucleotide):黃素單核苷酸。
6.CoA(coenzyme A):輔酶A。
7.ACP(acyl carrier protein):醯基載體蛋白。
8.BCCP(biotin carboxyl carrier protein):生物素羧基載體蛋白。
9.PLP(pyridoxal phosphate):磷酸吡哆醛。
10.UDPG:尿苷二磷酸葡萄糖,是合成蔗糖時葡萄糖的供體。
11.ADPG:腺苷二磷酸葡萄糖,是合成澱粉時葡萄糖的供體。
12.F-D-P:1,6-二磷酸果糖,由磷酸果糖激酶催化果糖-1-磷酸生成,屬於高能磷酸化合物,在糖酵解過程生成。
13.F-1-P:果糖-1-磷酸,由果糖激酶催化果糖生成,不含高能磷酸鍵。
14.G-1-P:葡萄糖-1-磷酸。由葡萄糖激酶催化葡萄糖生成,不含高能鍵。
15.PEP:磷酸烯醇式丙酮酸,含高能磷酸鍵,屬高能磷酸化合物,在糖酵解過程生成。 16.GOT(Glutamate-oxaloacetate transaminase):穀草轉氨酶, 17.GPT(Glutamate-pyruvate transaminase):谷丙轉氨酶
57、DNP:2,4-二硝基苯酚,解偶聯劑 58、TCA:三羧酸循環;檸檬酸循環;krebs途徑
59、TPP:焦磷酸硫胺素 60、DHAP:磷酸二羥丙酮
61、EMP:糖酵解途徑;Embden-Meyerhof Pathway途徑
28.IF(initiation factor):原核生物蛋白質合成的起始因子。
29.EF(elongation factor):原核生物蛋白質合成的延伸因子。
30.RF(release factor):原核生物蛋白質合成的終止因子(釋放因子)。
31.hnRNA(heterogeneous nuclear RNA):核不均一RNA。 32.fMet-tRNAf :原核生物蛋白質合成的第一個氨醯基轉移RNA。
33.Met-tRNAi :真核生物蛋白質合成的第一個氨醯基轉移RNA。 34、IP3:肌醇三磷酸 35、DAG:甘油二酯
36、NAN:N-乙醯神經氨糖酸 37、MVA:二羥甲基戊酸
38、HMGCoA合酶:β-羥甲基戊二醯CoA合酶 39、HMGCoA:β-羥基-β-甲基戊二醯CoA
40、IPP:異戊烯醇焦磷酸酯 41、DPP:二甲基丙烯焦磷酸酯
42、PCA循環:C4途徑,C4二羧酸途徑,C4光合碳同化循壞,Hatch-Slack途徑 43、NADP-ME:具有高活性的依賴NADP的蘋果酸酶的蘋果酸型 44、NAD-ME:具有高活性的依賴NAD的蘋果酸酶的天冬氨酸型
45、PEP-CK:具有高活性的PEP羧激酶的天冬氨酸
46、CAM:景天酸代謝途徑
47、CATP:2-羧基阿拉伯糖醇-1-磷酸
48、PCR:卡爾文循環;C3途徑;C3光合碳還原途徑
49、C2光呼吸碳氧化循環
50、RuBP:核桐糖-1,5-二磷酸 51、PSⅠ:光系統Ⅰ 52、PSⅡ:光系統Ⅱ 53、CP:色素蛋白復合體 54、OEC:放氧復合體 55、LHC:捕光復合體 56、WSC:水裂解體
18.APS(Adenosine phosphosulfate):腺苷醯硫酸
19.PAL(Pheny-lalanine ammonia lyase):苯丙氨酸解氨酶
20.PRPP(Phosphoribosyl pyrophosate):5-磷酸核糖焦磷酸
21.SAM (S-adenoymethionine):S-腺苷蛋氨酸
22.GDH (Glutamate drhyddrogenase):谷氨酸脫氫酶
23.IMP(Inosinic acid):次黃嘌呤核苷酸 24. CAP(Catabolic gene activator protein):降解物基因活化蛋白
25. PKA(Protein kinase):蛋白激酶A 26. CaM(Calmklin):鈣調蛋白
27. ORF(Open reading frame):開放閱讀框架