2015自然科学22

2015年重庆理工大学科研立项自然科学类（共97件）重点项目（18件）一般项目（79件）613KLA15037大数据背景下的“第三方”模式研究伏启翔188******** 一年胡爱平数统14KLA15038基于方差分析在学生成绩分析中的应用胡曦158******** 一年高红霞数统15KLA1504中国今年电影票房分析许宁生188******** 一年郑小洋数统16KLA15041 基于Hadoop平台的高校班级管理研究蒙高邦133******** 两年朱凌云唐继强计算机17KLA15042数控机床刀具磨损预测和误差补偿研究严超150******** 两年龚立雄机械18KLA15044基于WM1100的微耕机载荷谱编制梁川159******** 两年刘妤机械19KLA15045 模块化设计应用于机器人设计与制造的联系的研究庞亭185******** 一年半何苗机械20KLA15046关于汽车车身结构设计的研究与应用陈明188******** 一年王毅机械21KLA1505GPS智能手环王甜甜138******** 一年周青青电子22KLA15051中学生常规解题能力男女生差异的调查研究谢柱标188******** 一年陈艳电子23KLA15055车载驾驶员疲劳驾驶智能监控制系统研究刘李龙188******** 一年半杨继森电子24KLA15057嫦娥三号软着陆轨道设计与控制策略康健铭188******** 一年周青青电子25KLA15059公平偏好下的二级供应链契约协调机制孟令菊152******** 一年覃燕红管理26KLA15060 基于公平偏好和损失规避的供应链协调契约协调研究刘春梅151******** 一年覃燕红管理27KLA15061相对公平偏好下供应链回购契约协调机制钟明基186******** 一年覃燕红管理28KLA15062重庆市页岩气产业技术政策需求与创新研究包佳呓182******** 一年半曹华林管理29KLA15063汽车空心半轴王镭182******** 一年周志明材料30KLA15065 非调质钢热形成过程中微观组织演变规律的实验研究及数值模拟谢丹152******** 一年陈元芳汤萌材料31KLA15066 闭挤式精冲成形件表面物理力学形态特性研究杨兴152******** 一年吕琳材料32KLA15067AZ31镁合金阳极氧化膜的制备及性能研究李盼妮188******** 一年张春艳材料33KLA15068 AZ61镁合金挤压剪切工艺的微观组织与性能研究李根188******** 一年张驰材料34KLA15069CuCr25合金激光表面改性研究曾德琴189******** 一年周志明材料35KLA1507玻璃高频钎焊研究郑乔151******** 一年许惠斌材料36KLA15071 基于PVB/PMMA复合基质的平板显示领域红光薄膜材料研究开发及应用雷蕾151******** 一年杨朝龙李又兵材料37KLA15072 镀锌钢板电阻点焊电极损耗在线监测与预测研究刘伟180******** 一年罗怡材料38KLA15073多级连续剪切-弯曲变形镁合金性能研究翟晓炳188******** 一年周涛材料39KLA15077 模具表面多元共渗梯度涂层制备工艺及性能调控研究赵彩艺180******** 一年胡建军材料40KLA15078模具钢表面激光熔覆工艺及性能研究裴清泉133******** 一年叶宏材料41KLA15079氧化石墨烯改性聚甲醛的研究王华高152******** 一年黄杰材料42KLA15080 低温连接中玻璃表面金属层的制备及性能研究孙奖189******** 一年杨栋华材料43KLA15081芽孢杆菌AF抗MRSA产物的纯化鉴定李世川189******** 一年杨艳红药生44KLA15082 一种基于水溶剂的快速、环保的蛋白质染色方法的建立余磊189******** 一年半余瑛药生45 KLA1508小分子抗菌肽定量构效(毒)关系与分子模拟研刘瑾宇153******** 一年王远强药生3 究46KLA15084通过CRISPR/Cas9系统敲除人源PirB基因张长江188******** 一年半鲁秀敏药生47KLA15085 GNPs-APS纳米给药系统的研制及其对核酸疫苗免疫效应的影响吕君君181******** 一年半鲁秀敏药生48KLA15086 石斛多糖对K562细胞增殖及定向红系细胞分化的调控作用探讨田密156******** 一年半鲁秀敏药生49KLA15087 贪噬菌的筛选分离及处理含纤维素废水的工艺优化刘厚权188******** 一年张丽杰药生50KLA15088 生物增效技术强化畜禽粪便除臭与堆肥袁建华181******** 一年半张丽杰赵天涛药生51KLA15089肠炎沙门氏菌抑制菌分离与筛选马玉维188******** 一年胡勇药生52KLA1509金黄色葡萄球菌蛋白A提取方法的优化张中豪152******** 一年吴胜昔药生53KLA15091类黄酮对卵巢癌干细胞生物学特性的影响李凯旋180******** 一年付钰洁药生54KLA15092从种植天麻的泥土中分离和诱变蜜环菌向刚181******** 一年王颖药生55KLA15094基于溢流原理评价药物缓释性能的方法研究吴欣桐135******** 一年陈忠敏药生56KLA15095 丝素蛋白壳聚糖生物活性玻璃伤口复合敷料的制备与性能研究贺梦183******** 一年陈忠敏药生57KLA15096亚微米级莪术油蚕丝蛋白控释载体制备研究盛薇蔚188******** 一年王富平药生58KLA15098 高选择性小分子抗菌拟肽设计与筛选任洁187******** 一年张娅王远强药生59KLA15102 水力喷射空气旋流器吹脱处理氯苯废水的研究严雷188******** 一年程治良化工60KLA15103络合型表面活性剂的制备及应用翟恰恰188******** 一年半陈志化工61KLA15104 水力喷射空气旋流器用于大型养猪场降温的模拟研究毛巨钢188******** 一年吴京平化工62KLA15105 不同稳定化处置工艺对重金属铅形态的影响研究叶鹏188******** 一年高焕方化工63KLA15106土壤中总石油烃的分析与降解修复黄通顺136******** 一年半黄国文化工64KLA15107掺杂ZnSe量子点的制备和应用研究翁小东183******** 一年半李邦兴光电65KLA15108光纤倏逝波生物膜厚度传感器研究梁小勃188******** 一年半钟年丙光电66KLA15109高速空气流对光伏玻璃表面损伤研究刘星159******** 一年龚恒翔光电67KLA1511气溶胶在高温固体近表面动力学行为研究刘攀181******** 一年龚恒翔光电68KLA15112 LED灯用Mg2+/Ca2+/Zn2+共掺荧光粉的制备及发光特性研究沈洋136******** 一年金叶光电69KLA15113 LED灯用Ba2+/Ca2+/Zn2+共掺荧光粉的制备及发光特性研究杨海林131******** 一年金叶光电70KLA15114 带电金属板所产生的光电效应及其分析李登仟134******** 一年李邦兴张喜花光电71KLA15115 基于质能方程得出温度与质量的关系杨晓占134******** 一年李邦兴张喜花光电72KLA15116 新型黄绿色荧光粉ZnWO4:Pr3+,Li+的制备，表征和光致发光研究李尧188******** 两年冯文林光电73KLA15117磁控溅射镀氧化钨薄膜及其光电特性研究杨敏雪180******** 两年张锋光电74KLA15118 Ag/WO3 纳米复合膜的制备及其电致变色性质和器件的研究李浪153******** 一年半张锋光电75KLA15119 LED灯用Ce3+/Mn2+共掺荧光粉的制备及发光特性研究汪飞188******** 一年金叶光电76KLA1512高效发光碳量子点的制备和应用研究杨杨188******** 两年李邦兴光电77KLA15121 基于血液动力学建模的中心动脉压无创检测研究蒋德春157******** 一年半肖汉光光电78 KLA1512血液陈旧度的高光谱特征检测研究汪姝玲188******** 一年半肖汉光光电。

2015年度国家自然科学基金项目共享航次计划一、渤黄海航次（航次编号:2０１５-01)(１）科学目标:以渤黄海海域及黄河河口的海洋环境变化研究为主线,通过物理海洋、海洋地质、海洋生物、海洋化学和大气环境等多学科的综合调查研究，获取区域海洋样品和环境参数变化记录，以期揭示全球变化背景下渤黄海区域的响应过程和机理.(2）调查区域:渤海和黄海。

（3）调查时间:201５年４-8月和９－１2月各1个航段,共计２个航段，时间分别为25天和2０天,共计４5天.（4）调查内容：航次主要调查内容包括海洋水文和气象、海洋化学、海洋生物生态、海洋地质和大气环境的观测,采集相应的生物、海水和沉积物样品。

二、东海航次(航次编号：２01５-02）（1）科学目标:依据高效和一船多用的原则,开展东海海域的水动力环境、海洋生物与生态以及水体和沉积环境的综合科学考察；通过对东海海域海陆相互作用及其记录的研究，进一步揭示全球变化背景下东海陆架海域海洋环境演变和生态系统响应。

（2）调查区域:东海。

（3）调查时间:出航时间初步定在2015年４－5月份(春季）和9－１0月(秋季)各一个航段，两个航段总工作船时约２7天。

（４）调查内容:航次主要调查内容包括海洋水文和气象、海洋化学、海洋生物生态和底质环境参数的观测,采集相应的生物、海水和沉积物样品（包括表层样和柱状样)。

三、长江口航次(航次编号:2015—０3）(1) 科学目标:长江口及其邻近海域是全球海陆相互作用研究的重点区域之一。

本开放航次将开展该区域内的水动力、物质输运、底质环境、生态与环境等综合科学考察。

科学主题为“长江口及邻近海域的物质输运及其生态与环境效应”。

（2)调查区域：长江口及其邻近海域。

(3）调查时间:出航时间初步定在2０15年2－3月份（枯季)和2０１5年7-8月（夏季）各一个航段，二个航段总工作船时28天。

（4)调查内容：航次主要调查内容包括海洋水文和气象、底质环境、海洋化学、海洋生物生态观测,采集相应的生物、海水和沉积物样品等。

Article Earth ScienceRevised Ti-in-biotite geothermometer for ilmenite-or rutile-bearing crustal metapelitesChun-Ming Wu •Hong-Xu ChenReceived:1July 2014/Accepted:19September 2014/Published online:19December 2014ÓScience China Press and Springer-Verlag Berlin Heidelberg 2014Abstract In the present study,the Ti-in-biotite geother-mometer was revised using more than 300natural rutile-or ilmenite-bearing metapelites collected worldwide.The formulation was empirically calibrated as ln ½T ð C Þ ¼6:313þ0:224ln ðX Ti ÞÀ0:288ln ðX Fe ÞÀ0:449ln ðX Mg Þþ0:15P ðGPa Þ,with X j ¼j =ðFe þMg þAl VI þTi Þin biotite,assuming ferric iron content of 11.6mol%of the total iron in biotite.This thermometer is consistent with the well-calibrated garnet–biotite thermometer within error of ±50°C for most of the calibrant samples and can successfully distin-guish systematic temperature changes of different meta-morphic zones in both prograde and inverted metamorphic terranes as well as thermal contact aureoles.Thus,the thermometer truthfully reflects real geologic conditions and can be applied to TiO 2-saturated metapelites metamor-phosed at the crustal level within the calibration ranges (450–840°C,0.1–1.9GPa,X Ti =0.02–0.14in biotite).Keywords Ti content ÁBiotite ÁCalibration ÁGeothermometer ÁApplication ÁError1IntroductionThe development of valid geothermobarometers has been a crucial component of petrologic research for more than80years.Metapelites,in particular,are quite sensitive to metamorphic pressure–temperature (P –T )conditions,and metapelitic mineral assemblages typically record the tectono-metamorphic evolution of metamorphic terranes.Therefore,thermobarometers applicable to metapelites are powerful tools in retrieving information about metamorphic processes.Such geothermobarometers include the valid garnet–biotite thermometer [1],the garnet–Al 2SiO 5–plagioclase–quartz (GASP)barometer [2],the garnet–biotite–plagioclase–quartz (GBPQ)barometer [3],the garnet–muscovite–plagioclase–quartz (GMPQ)thermobarometers [4],and the garnet–bio-tite–muscovite–Al 2SiO 5–quartz (GBMAQ)barometer [5].In fact,constructing concise and easily used monomi-neralogic thermobarometers is a priority for petrologists,which has led to development of the hornblende thermoba-rometer [6,7],the Si-in-phengite geobarometer [8,9],and the Ti-in-biotite geothermometer [10,11].The Ti-in-biotite geothermometer is extremely useful in deciphering the metamorphic temperatures of metapelites,especially when garnet is absent in TiO 2-saturated rocks.However,further work is required for this thermometer,particularly owing to the limited ranges of calibration P –T conditions and chem-ical compositions of biotites.In the present study,the Ti-in-biotite thermometer was revised based on abundant me-tapelitic samples collected worldwide;then,the applicability of the thermometer was tested by applying it to prograde and inverted metamorphic terranes and thermal contact aureoles.2Calibration of the Ti-in-biotite geothermometer 2.1Calibration data setIn total,334rutile-and/or ilmenite-bearing natural me-tapelitic samples collected worldwide were collated basedElectronic supplementary material The online version of this article (doi:10.1007/s11434-014-0674-y )contains supplementary material,which is available to authorized users.C.-M.Wu (&)ÁH.-X.ChenCollege of Earth Science,University of Chinese Academy of Sciences,Beijing 100049,China e-mail:wucm@Sci.Bull.(2015)60(1):116– DOI 10.1007/s11434-014-0674-y /scpon the existing literature.Of these,24samples (7%of the total data)were discarded owing to possible disequilib-rium;the remaining 310samples were used in the cali-bration.These data are given in Table S1.For graphite-or ilmenite-bearing metapelites,the ferric contents of garnet and biotite were estimated to be 3%and 11.6%,respec-tively,of the total iron [1].These rocks were metamor-phosed under P –T conditions of 450–840°C and 0.1–1.9GPa,respectively,determined simultaneously by applying the garnet–biotite geothermometer [1]and the GASP geobarometer [2],as suggested by Wu and Cheng [12].The chemical ranges are X Fe =0.19–0.55,X Mg =0.23–0.67,and X Ti =0.02–0.14for biotites,on the basis of 11oxygen per formula unit,in which X j ¼j =ðFe þMg þAl VI þTi Þin biotite.It should be stated that such compositional ranges cover more than 98%of the natural biotites in rutile-or ilmenite-bearing metapelites.2.2Calibration of the thermometerHenry and Guidotti [10]and Henry et al.[11]found that there exists a curved Ti-saturation surface in the T –Ti–Mg#space and fitted T ,Ti atoms,and Mg#½¼Mg =ðMg þFe Þ of biotites to an exponential equation,as the Ti-in-biotite thermometer.The empirical formulations (Eqs.1and 2)of their thermometers are described as ln ðTi Þ¼À2:3353þ4:343Â10À9½T ð C Þ 3À1:6718ðMg#Þ3;ð1Þandln ðTi Þ¼À2:3594þ4:6482Â10À9½T ð C Þ 3À1:7283ðMg#Þ3;ð2Þrespectively,on the 22-O basis of biotite.These previous studies demonstrated that the precision of the thermometer is around ±25°C.However,their calibration data were metapelitic samples collected from western Maine and metamorphosed under pressure condi-tions of 0.33GPa [10]and collected from both western Maine and south-central Massachusetts [11]and meta-morphosed under pressure conditions of 0.4and 0.6GPa,respectively,at almost constant pressure conditions.We found that another type of regression model can better describe the temperature dependence of the Ti con-tents of biotites;thus,the Ti-in-biotite geothermometer (Eq.3)was empirically calibrated through multiple regression analysis as follows:ln T C ðÞ½ ¼6:313Æ0:078ðÞþ0:224Æ0:006ðÞln X Ti ðÞÀ0:288Æ0:041ðÞln X Fe ðÞÀ0:449Æ0:039ðÞÂln X Mg ÀÁþ0:15Æ0:01ðÞP GPa ðÞ;ð3Þwith a multiple correlation coefficient of R =0.906obtained when fitting the calibrant data set listed in Table S1.It should be noted that the present formulation is only empirical and lacks strict thermodynamic and crystallo-graphic bases;however,it is valid and practical in the applications described hereafter.2.3Error analysisThe present Ti-in-biotite thermometer (Eq.3)yields similar temperatures to the garnet–biotite thermometer [1]within error of ±50°C for 72%of the total 310calibrant samples (Fig.1a).In contrast,the Ti-in-biotite thermometer of Henry et al.[11]typically overestimates temperatures (Fig.1b)compared to the garnet–biotite thermometer [1].The garnet–biotite thermometer [1]is the most precise and accurate of all thermometers used in metapelites [12].Therefore,we evaluated the accuracy of the present Ti-in-biotite thermometer by comparing the temperature differ-ences between these two thermometers and defined this as the random error of the Ti-in-biotite thermometer.Our results show that the random error of this thermometer is nearly independent of both temperature (Fig.1c)and pressure (Fig.1d)or the chemical compositions of biotites (Fig.1e–g),suggesting that the random error of the new Ti-in-biotite thermometer is evenly distributed,without any bias.Based on the calibrant data set (Table S1),the following statements can be made:(a)an error of ±0.2GPa of input pressure translates to a temperature error of ±14–25°C and (b)analytical error of ±2%for the Ti,Fe,and Mg contents in biotites may translate to temperature errors of ±2–4°C,±1–3°C,and ±1–5°C,respectively.Thus,the random error of this new thermometer was arbitrarily estimated to be ca.±65°C,when considering both for reproduction of calibration temperatures and for applica-tions to natural metamorphic terranes.The absolute error of the present Ti-in-biotite thermometer could not be evalu-ated owing to a shortage of experimental data.3Applications of the Ti-in-biotite geothermometer A valid thermometer should be able to accurately distin-guish systematic temperature changes of different zones in prograde or inverted metamorphic terranes and in thermal contact aureoles,as suggested by Wu and Cheng [12]when evaluating the validity of the garnet–biotite thermometers.The present Ti-in-biotite thermometer has been applied to such metamorphic regions worldwide (Table S2),and it has been demonstrated that this thermometer both reflectssystematic temperature changes and yields similar(but some slightly lower)temperature estimates(Fig.2)to the garnet–biotite geothermometer[1].It appears that the present Ti-in-biotite thermometer (Eq.3)is superior to that of Henry et al.[11];in particular, the latter cannot reflect temperature increases between some neighboring metamorphic zones(Fig.2a,c–e,h).It should be noted that these two Ti-in-biotite thermometers have erroneously indicated temperature decrease from the higher kyanite–biotite zone to the sillimanite zone of the inverted metamorphic terrane in the western metamorphic belt,Juneau,Alaska[17],and from zone7to zone8of the regional thermal contact aureoles of west-central Maine [20].However,the causes of these errors remain unknown. 4DiscussionThe temperature dependence of the Ti contents of me-tapelitic biotites has long been recognized,although the reasons for this dependence are relatively complex.Henry and Guidotti[10]and Henry et al.[11]argued that the coupled cation–cation exchanges in biotites,including 2VI R2þ¼VI TiþVI h,2VI Al¼VI TiþVI R2þ,VI R2þþ2IV Si¼VI Tiþ2IV Al,and VI R2þþ2OHÀ¼VI Tiþ2O2À, may be the mechanisms by which Ti atoms are incorpo-rated into biotite solution.However,it has been shown that no one cation exchange reaction is solely responsible for the temperature effect illustrated by Fig.8of Henry et al.[11],suggesting that the Ti-in-biotite thermometer merits further study.In their derivation,Henry et al.[11]used graphitic, aluminous,biotite-bearing metapelitic samples from wes-tern Maine and south-central Massachusetts,with input temperatures determined based on locations of isograd reactions and dehydration melting reactions calibrated against the petrogenetic grid of Spear et al.[21]at pres-sures of0.4and0.6GPa,respectively.Although Henry and Guidotti[10]and Henry et al.[11]acknowledged that Ti contents of biotites are negatively related to pressure,their formulations contained no pressure item owing to the narrow pressure range of their calibrant samples.On the contrary,we found that the Ti contents of biotites are positively related to pressure,and pressure is included in the present formulation.Another possible reason for the superiority of the new Ti-in-biotite thermometer is the splitting of the Mg#½=Mg/(MgþFe)]item into two items,i.e.,X Fe and X Mg,in our regression analysis.However,a strict theoretical basis for the superiority remains elusive at present.Accordingly, it should be noted that the new formulation is merely an empirical equation,although it deserves further calibration in the future and can be applied already in certain situations.5ConclusionsThe calibration P–T ranges(450–840°C,0.1–1.9GPa)of the Ti-in-biotite geothermometer were broadened tofit greenschist to granulite facies,TiO2-saturated,rutile-and/ or ilmenite-bearing metapelites.This thermometer not only yields similar temperature estimates to the well-calibrated garnet–biotite thermometer,but also clearly distinguishes systematic temperature changes in different zones of pro-grade or inverted metamorphic regions and thermal contact aureoles.The random error of this thermometer has been shown to be no more than approximately±65°C. 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22年国家自然科学生命科学部资助项目名单国家自然科学基金是我国重要的科研资助项目之一，每年都会公布各个学科的资助项目名单。

其中，生命科学部作为其中的一个重要科学分支，对生命科学领域的研究提供了大量的支持和资助。

今年22年国家自然科学生命科学部资助项目名单也引起了广泛关注。

在本文中，我将对这一项目名单进行深入分析，并结合自己的观点和理解，为大家解析其中的深度和广度。

一、项目名单的总体情况今年的22年国家自然科学生命科学部资助项目名单共涵盖了多个生命科学领域的研究项目，包括分子生物学、细胞生物学、遗传学、生态学等多个方向。

从这些项目名单中我们可以看到，生命科学部的资助在覆盖范围上非常广泛，涉及到了生物学领域的多个重要方向和热点问题，展现出了生命科学研究的全面性和前沿性。

二、部分值得关注的项目在这些资助项目名单中，有一些项目具有特别重要的意义，需要我们重点关注。

比如在分子生物学领域，有关基因编辑技术的研究成果在近年来取得了长足的进展，这为人类基因治疗甚至基因改造技术的实现提供了新的思路和可能。

这些项目的资助将有望推动这一领域的研究取得更多突破性进展。

在生态学领域，一些关于生态系统恢复和生物多样性保护的项目也具有重要意义，它们将有望为当前全球环境问题的解决提供重要的科学支持。

三、对于生命科学研究的思考生命科学作为一门关乎人类生存和健康的重要学科，始终是科研领域的重要热点之一。

今年的22年国家自然科学生命科学部资助项目名单中所涉及的诸多研究方向和课题，不仅在深度上为我们揭示了当下生命科学领域中的重要问题和挑战，也在广度上为我们展现了生命科学研究的多样性和前沿性。

这些项目的资助将有望为生命科学领域的研究提供更加系统和全面的支持，推动该领域的发展和进步，促进人类社会的科技进步和文明发展。

总结回顾通过对22年国家自然科学生命科学部资助项目名单的分析，我们不仅可以对当前生命科学研究的热点和前沿有更深刻的了解，也可以看到这些研究课题和方向对于解决当前全球性问题具有重要意义。

创新题型一、选择题1.（2015某某11）对教材中的图片，下列描述合理的是 （ ）ABCDA.使用测电笔辨别火线和零线时，手要接触金属笔卡B.用手掌代替橡皮小槌，无法完成膝跳反射实验C.两小球能相互吸引，它们一定带异种电荷D.吸烟损害吸烟者身体健康，对周围人的健康没有影响2.（2015某某15）人杰地灵的某某流传许多包含科学道理的谚语，其中解释错误的是（ ） A.“吃过端午粽，棉衣远远送”——此时节气接近夏至，气温较高 B.“六月盖被，有谷无米”——此时气温太低，影响水稻果实正常发育 C.“少吃多滋味，多吃坏肚皮”——平时饮食要适量，吃太多增加消化负担 D.“大鱼吃小鱼，小鱼吃虾咪”——是指食物关系，描述了一条完整的食物链3．（2015某某15）汽车刹车原理图如图所示，连着刹车踏板的金属杆是一根能绕O 点转动的杠杆，当驾驶员踩下刹车踏板时，刹车油受到挤压从而推动活塞向左移，活塞挤压刹车卡钳夹紧刹车盘产生摩擦力使车辆减速。

当行驶中的汽车刹车时，下列分析正确的是（ ）A ．刹车盘的温度不会升高B ．连着刹车踏板的金属杆是费力杠杆C ．刹车卡钳把刹车盘夹得越紧，摩擦力越大D ．脚踩刹车踏板时，刹车踏板对脚没有力的作用4．（2015某某15）把盛有5g16％的NaOH 溶液的短试管放入盛有l0g16％的CuS04溶液的锥金属笔卡金属O刹车刹车卡钳刹车盘活塞刹车油形瓶里，如图所示。

倾斜锥形瓶直到使两溶液充分混合，混合后不可能的是（）A．产生蓝色沉淀0.98gB．锥形瓶内物质总质量不变C．所得溶液的Na2S04质量分数大于9.5％D．所得的Na2S04溶液质量与原CuS04溶液质量相等5．（2015某某8）如图为甲生成乙和丙的反应示意图，其中丙是呼吸作用产物之一，则（）A．该反应是化合反应B．甲是有机物C．甲的相对分子质量为34gD．乙由一种元素组成6．（2015某某14）从水下向水面看，看到一条鱼及其所成的像，如图所示。

序号项目批准号申请代码1 9181530041H042581522009H03177481573164H26054181572430H16178781570786H07191781572255H16152881572283H16155521572003B0206016731571557C1202103431571149C21103181573942H27088181573512H31121481571572H10084981571521H1001 281570419H0215 681571429H0415 881571308H09181181573652H28101581572350H16171881572305H16172381571293H09163281573217H26103381572749H16023681573168H26064481570295H02054581570403H02154881573218H26105481571039H09026181571018H14097081570637H05087381573017H16139281572801H16049381572364H16179481572507H16195281572065H2005 981572022H19061281573061H11044781573222H26105381571963H19018081570034H01083781573807H29025081570623H0503 481570159H08134081573035H11026971573002G03087681573065H11068981573443H31044281573163H26057281571540H1005 131501103C07042221507002B0707046031500817C100604 531501838C04015931500967C1110 381501843H0601 781502791H2602 1381503330H2814 1681501232H0405 2081501468H1804 2181500373H0217 2681502149H1618 2781502599H1609 3581502323H1624 3981500576H0513 4371503007G0308 5181502123H1617 5681502814H2605 5781500403H0306 5881501601H1821 6281500716H1204 6481501814H2004 6581502871H2610 6881501354H1004 7181502806H2603 7581502740H1105 7781501244H0415 7881502713H1102 8381502282H1622 8481502191H1619 8581500344H0215 8681501344H1003 3081503080H3104 3881503004H3008 6381503129H3108 8881503084H3104 1081500949H0903 4681501187H0928 1981500473H0317 2481500521H0504 6671503006G0308 7971503009G0308 8271503010G0308 9071503008G0308 2981502141H1618项目名称人线粒体捐赠胚中线粒体与核的互作与对话肝再生和损伤修复婴儿HPA轴反应性增强在联结孕期应激与双酚 A联合暴露致认知损伤中的作用：出生队列研究内质网应激诱导的exosomes释放对肿瘤微环境的调控及其在肝癌免疫逃逸中的作用肝细胞受体syndecan-1通过flotillin-1介导饮食后乳糜残余物脂质代谢降解的分子机制组蛋白新型修饰在肺腺癌发生发展中的功能和机制研究CCL18介导的蛋白质磷酸化和乙酰化修饰在肺腺癌发生发展中的功能和机制研究选择性识别端粒蛋白p65的苯并吡喃新先导：优化设计合成及作用机制内质网IREl信号介导镉诱发睾丸生殖细胞凋亡的机制催产素及其受体基因在精神分裂症共情障碍的神经机制研究基于siRNA沉默JAKs/STATs相关基因的六味补气胶囊对COPD肺气虚证大鼠呼吸系统影响的研究对乙酰氨基酚肝损伤中诱导型血红素氧化酶/一氧化碳介导的抗炎抗氧化保护机制在肝细胞再生14-3-3η蛋白通过调控MAPK/Smad1信号通路影响强直性脊柱炎患者新骨形成的机制研究Lnc-49a调控人蜕膜NK细胞的独特表型及功能microRNA-29b对早期AS动脉内皮功能的影响及其调控机制SLC6A4基因在5-HT系统调控射精功能中的作用及机制研究酒精依赖症患者情绪记忆特异性机制多模态MRI研究Smad3C末端和连接区磷酸化位点突变对肝纤维化-肝癌发展进程的调控及丹酚酸B的干预SHP-2酪氨酸磷酸酶在幽门螺杆菌诱发胃癌中的角色及隐丹参酮对其干预作用XIAP基因3’UTR的异常可变性剪切对肝细胞癌恶性进展的作用和分子机制内在光敏视网膜神经节细胞介导的光调节促睡眠中枢（下丘脑腹外侧视前区）的神经环路机制IL-10基因单核苷酸多态性与SLE患者免疫异常的相关性研究MiR-100失活在重金属污染物砷协同激活突变 Ptpn11促发肺癌中的关键作用及机制孕期过度增重与儿童内外化行为和神经发育障碍关联的出生队列研究miR-369-5p介导PTCH1甲基化修饰在房颤心房纤维化发生发展中的作用机制内皮祖细胞外泌体在动脉内皮损伤修复和糖尿病动脉粥样硬化发生中的作用非HLA区域拷贝数变异与AS易感性及疾病进展的分子机制研究GSK-3β/β-catenin信号通路介导七氟烷麻醉导致POCD的分子机制研究“去污和矿化”双活性表面诱导釉质样结构再生的自愈性修复CNP拮抗FGF-23/MAPK信号通路对肾性骨病的治疗效应及机制研究肺癌患者支持性照护需求的预测模型及其干预机制研究弓形虫多态效应分子GRA15Ⅱ调节巨噬细胞极化及其抗肝细胞癌作用的研究极性蛋白hDLG多位点磷酸化以及在胃癌生长和转移中作用的研究肾癌来源MSC调节巨噬细胞极化及逆转策略研究金葡菌杀白细胞素S组分诱导人髓系白血病细胞凋亡/分化机制及分子靶标研究弓形虫效应分子ROP18抑制Wnt/β-catenin通路干扰神经干细胞分化的机制研究梅毒感染耐受性机制研究SLE相关lncRNA的筛选及其遗传变异与疾病易感性的分子流行病学研究我国新分离斑点热立克次体主要表面蛋白对 THP-1细胞专嗜性的致病机制研究流感病毒激活COPD患者气道上皮细胞炎症小体NLRP3/caspase-1信号转导机制研究基于PI3K/Akt/mTOR信号通路研究丹参酮IIA对脑梗死后自噬激活的调控机制TGF-β/Smad3调控上皮细胞程序性死亡增加2型糖尿病小鼠AKI敏感性的机制及靶向预防探索IL-12/IL-12R与CCR5通过JAK/STAT通路相互调控对分离aGVHD与GVL的机制研究AIM2基因与汉族人银屑病发病机制相关性研究基于社会资本理论的健康老龄化研究化脓性汗腺炎分子发病机制的深入研究hsTNFRII基因修饰的人脐带间充质干细胞治疗自身免疫性关节炎的作用及机制下丘脑PcG蛋白关键基因启动子区甲基化在联结孕期双酚A暴露与女童青春期发育提前中的作用CD205+Kupffer细胞在HBV感染肝脏易发损伤中的作用及机制研究IGF2BP1在细胞分化中作用机制的研究“老化的”纳米ZnO协同激活突变SHP-2促进小鼠胚胎成纤维细胞恶性转化及机制探讨不同形状纳米金的雄性生殖系统毒性研究MicroRNAs在小鼠子宫蜕膜化中基质上皮转换发生过程中的功能和分子机制研究基于超薄塑化与高分辨率MRI相结合新技术的颅底岩后区硬膜通道精细三维构筑的外科解剖学研Ferroportin1（FPN1)基因对破骨细胞分化和功能的调控及机制研究激肽释放酶-激肽系统活化Kupffer细胞介导三氯乙烯免疫性肝损伤及机制研究基于Nrf2介导的HMGB1/β-catenin途径探讨玉屏风散总苷在上皮间质转化中的调控机制从全基因组水平识别不明原因复发性流产相关的拷贝数变异CT能谱成像评估胰头癌血管增生及纤维化的实验研究miR-150促进EPCs旁分泌在深静脉血栓机化再通中的机制研究小干扰素诱导膜蛋白IFITM3在微环境JAK/STAT信号通路中对胶质瘤侵袭性生长的调控机制Snail通过调控P-gp表达促进结直肠癌化疗耐药的机制研究LncRNA HULC/miR-372在骨肉瘤侵袭转移中的作用及分子机制IL-6调控慢性非细菌性前列腺炎自噬的作用机制研究骨质疏松性骨折防治的卫生经济学评价研究Integrin β1信号通路在IGFBP2上调Egr-1促进肝癌细胞增殖中的作用维生素D缺乏调控脂肪组织能量代谢的机制研究TGF-β/Smad7信号通路调节溃疡性结肠炎肠黏膜通透性的分子机制研究IL-1β活化脂肪间充质干细胞对小肠缺血再灌注损伤的修复作用及机制研究p53-SP1复合体诱导miR-29b转录激活在抑制青光眼术后滤过道瘢痕形成中的作用及机制中和抗体介导登革病毒与宿主细胞膜融合增强作用及其机制研究被动吸烟及其与易感基因、抗磷脂抗体交互作用对SLE患者心血管事件的影响可溶型ULBP2蛋白对NK细胞的负调效应及其肝癌免疫逃逸机制探讨基于癌前筛查人群的维甲酸代谢与胃癌前病变转归因果联系的巢式病例对照研究MiR-23a-27a-24表达簇在急性中波紫外线辐射所致CPDs清除及凋亡过程中的作用和机制研究AngII-p38MAPK信号通路在膀胱出口部分梗阻导致阴茎海绵体NOS异常表达中作用机制的研究12p13.3易感区域TAPBPL基因与银屑病的相关性研究LMO4 3’端非编码区缩短调控肿瘤干细胞行为介导乳腺癌赫赛汀耐药性的研究DNA甲基化调控的AK5和EYA4基因在膀胱癌对多药物耐受中的作用及机制的系统研究miR-98通过调控动脉内皮LOX-1表达抑制动脉粥样硬化形成的研究嗜酸性粒细胞调控巨噬细胞促进类风湿关节炎缓解的作用及机制研究血管紧张素Ⅱ2型受体激动剂对机械通气所致肺损伤大鼠模型中肺泡巨噬细胞异常极化、功能的针对肿瘤细胞周期的时相靶向制剂的研究基于RAGE介导的IRE1-XBP1-Smad通路探讨 HMGB1在肺泡上皮细胞间质转化中的作用人参皂苷CK选择性激动糖皮质激素受体抑制胶原性关节炎T细胞功能及其机制轴突起始段的电生理特性及其电压门控钠通道在神经病理性疼痛中的作用及机理研究用于阿尔茨海默症早期诊断的氟标小分子MRI成像用Aβ探针的研究Kv1.3/ Kv1.5介导巨噬细胞的免疫调节在肝纤维化中的机制研究QS调控D-AAS分解多糖蛋白复合物机制及防治细菌生物膜研究综合性公立医院基本药物优先使用的激励相容机制研究--以安徽为例定量模型及在线智能引导的癌症筛查咨询方案优化验证基于机制设计理论的基本公共卫生服务均等化策略研究面向村医的两阶段多肿瘤风险评估模型与辅助工具设计PRDM2基因在泌乳素腺瘤溴隐亭耐药形成中的作用项目负责人依托单位批准金额项目起止年月曹云霞安徽医科大学 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