高温胁迫对花生幼苗光合速率、叶绿素含量、叶绿体Ca2+-ATPase、Mg2+-ATPase及Ca2+分布的影响

将水培后盆栽的花生幼苗,置于培养箱42℃高温培养,定时测定幼苗叶光合速率、叶绿素含量和叶绿体Ca2 -ATPase、Mg2 -ATPase的相对活性,并观察幼叶细胞内Ca2 分布的变化。试验结果表明:高温胁迫过程中,光合速率及叶绿素含量都随处理时间的延伸而下降,并呈显著正相关;叶绿体Ca2 -ATPase和Mg2 -ATPase高温胁迫过程中相对活性呈先升后降趋势,Ca2 -ATPase热敏性高于Mg2 -ATPase;高温胁迫过程中,Ca2 具有从胞外转运到胞质内和叶绿体中的趋势,Ca2 能够稳定高温胁迫下叶肉细胞膜和叶绿体的超微结构。     

竹节参对力竭运动大鼠心肌线粒体ATP酶活性的影响

目的：探讨竹节参对力竭运动大鼠心肌线粒体ATP酶活性的影响。方法：建立力竭运动大鼠模型,测定心肌线粒体ATP酶的活性,研究竹节参对大强度耐力训练大鼠心肌线粒体的保护作用。结果：力竭运动引起大鼠心肌线粒体ATPase（Na＋,K＋-ATPase和Ca2＋-ATPase）活性显著下降,而运动加药组Ca2＋-ATPase有显著升高,Na＋,K＋-ATPase也有明显升高,且ATPase活性均接近于安静对照组的水平。结论：竹节参可提高力竭运动大鼠心肌线粒体内Na＋,K＋-ATP酶和Ca2＋-ATP酶的活性,提示其具有保护线粒体的作用。     

小檗碱对平滑肌肌球蛋白功能及胃肠平滑肌收缩性的影响

目的:探讨小檗碱对平滑肌肌球蛋白功能及胃肠平滑肌收缩性的影响.方法:以平滑肌肌球蛋白Mg2+-ATPase活性、肌球蛋白磷酸化以及胃与肠道平滑肌的收缩振幅为指标,考察小檗碱对平滑肌肌球蛋白Mg2+-ATPase活性和肌球蛋白磷酸化程度的影响,及其对离体小肠与胃平滑肌条收缩性的影响.结果:(1)在肌球蛋白轻链的Ca2+依赖性磷酸化反应中.小檗碱能抑制磷酸化肌球蛋白Mg2+-ATPase活性;(2)在肌球蛋白轻链的Ca2+依赖性磷酸化反应中,小檗碱可显著抑制磷酸化肌球蛋白轻链磷酸化程度;(3)小檗碱对大鼠离体小肠及胃平滑肌条收缩性均具有抑制作用.且均呈剂量依赖性.结论:小檗碱可通过抑制平滑肌肌球蛋白的功能,抑制胃肠道平滑肌的收缩性.     

脉冲电流经皮刺激肝区对运动性疲劳大鼠肝脏线粒体呼吸链酶复合物活性的影响

目的:探讨脉冲电流经皮刺激肝区对运动性疲劳大鼠肝脏线粒体呼吸链酶复合物(I~IV)活性的影响。方法:选取健康8周龄Wistar雄性大鼠80只为实验对象,将实验动物随机分为安静对照组(A组)、疲劳对照组(B组)、疲劳前刺激组(C组)、疲劳后刺激组(D组),造模成功后分别在1、3、5周末分批处死。采用分光光度法测定1、3、5周各组动物的肝脏线粒体呼吸链酶复合物(I~IV)活性,大鼠肝脏线粒体蛋白定量用Bradfood蛋白定量法测定。结果:第3、5周末D组和B组、C组大鼠游泳力竭时间差异比较具有统计学意义(P0.05)。A组、C组及D组大鼠肝脏线粒体呼吸链酶复合物(I~IV)活性水平在第3、5周末均高于B组(P0.05)。D组大鼠肝脏线粒体呼吸链酶复合物(I~IV)活性水平在第3、5周末均高于C组(P0.05)。结论:脉冲电流经皮刺激运动性疲劳大鼠肝区可以提高其氧化呼吸链酶复合物(I~IV)的活性水平。     

11,12.环氧二十碳三烯酸预处理与后处理对缺血/再灌注大鼠心肌的保护作用

采用Langendorff离体灌流装置,通过停灌40 min/复灌30 min复制大鼠心肌缺血/再灌注(ischemia/reperfusion,IR)损伤模型,观察11,12-环氧二十碳三烯酸(11,12-epoxyeicosatrienoic acid,11,12-EET)预处理和后处理对心肌线粒体功能以及心功能的影响,探讨11,12-EET顸处理和后处理对IR大鼠心肌的作用及其机制.将30只Sprague-Dawley大鼠随机分为对照组、IR组、EET预处理组(Pre-EET)、EET后处理组(Post-EET),每组6只.除对照组外,其它各组全心缺血40 min,再灌注30 min.监测左心室内压差(ALVP)和左心室内压升降的最大变化率(±dp/dtmax)等心功能指标,测定灌流液中乳酸脱氢酶(1actate dehydrogenase,LDH)的活性.灌流结束后,测定心肌线粒体琥珀酸脱氢酶(succinate dehydrogenase,SDH)、Ca"ATPase、Na - K -ATPase活性以及心肌超氧化物歧化酶(superoxide dismutase,SOD)活性、丙二醛(malondialdehyde,MDA)含量.结果显示:(1)与IR组相比,Pre-EET组及Post.EET组Na -K -ATPase和SDH活性均增强,Ca2 -ATPase活性均减弱,有显著性差异(P<0.05);而Pre-EET与Post-EET组间没有显著性差异.(2)与IR组相比,Pre-EET组及Post-EET组心功能明显改善,LDH漏出显著减少,心肌SOD活性明显增强,MDA含量明显降低,有显著性差异(P<0.05);而Pre-EET与Post-EET组间没有显著性差异.结果表明,11,12-EET预处理及后处理均可通过上调心肌线粒体Na -K -ATPase、SDH活性以及下调Ca2 -ATPase活性改善线粒体功能和心肌能量代谢,拮抗心肌IR损伤;11,12-EET预处理及后处理还可通过提高心肌SOD活性、降低MDA含量改善IR心肌的氧化应激.     

棕榈酸对模拟高原低氧大鼠离体脑线粒体解耦联蛋白活性及质子漏的影响

本文旨在通过观察棕榈酸对模拟高原低氧大鼠离体脑线粒体解耦联蛋白(uncoupling proteins,UCPs)活性的影响及脑线粒体质子漏与膜电位的改变,探讨UCPs在介导游离脂肪酸对低氧时线粒体氧化磷酸化功能改变中的作用.将SpragueDawley大鼠随机分为对照组、急性低氧组和慢性低氧组.低氧大鼠于低压舱内模拟海拔5 000 m高原23 h/d作低氧暴露,分别连续低氧3 d和30 d.用差速密度梯度离心法提取脑线粒体,[3H-GTP法测定UCPs含量与活性,TPMP 电极与Clark氧电极结合法测量线粒体质子漏,罗丹明123荧光法测定线粒体膜电位.结果显示,低氧使脑线粒体内UCPs含量与活性升高、质子漏增加、线粒体膜电位降低;同时,低氧暴露降低脑线粒体对棕榈酸的反应性,UCPs活性的改变率低于对照组,且线粒体UCPs含量、质子漏、膜电位变化率亦出现相同趋势.线粒体质子漏与反映UCPs活性的Kd值呈线性负相关(P<0.01 r=-0.906),与反映UCPs含量的Bmax呈线性正相关(P<0.01,r=0.856),与膜电位呈线性负相关(P<0.01,r=-0.880).以上结果提示,低氧导致的脑线粒体质子漏增加及膜电位降低与线粒体内UCPs活性升高有关,同时低氧暴露能降低脑线粒体对棕榈酸的反应性,提示在高原低氧环境下,游离脂肪酸升高在维持线粒体能量代谢中起着自身保护和调节机制.     

等渗盐胁迫对番茄抗氧化酶和ATP酶及焦磷酸酶活性的影响

用Ca(NO3)2 80 mmol/L和NaCl 120 mmol/L等渗溶液处理番茄幼苗后,细胞质和叶绿体中超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)的活性升高,并且NaCl胁迫的作用明显高于Ca(NO3)2胁迫.Ca(NO3)2处理提高了线粒体中SOD、CAT、APX的活性,而NaCl处理降低了它们的活性.根系质膜H -ATPase、液泡膜H -ATPase、焦磷酸酶(H -PPase)的活性和叶片丙二醛(MDA)及脯氨酸含量在两种盐胁迫后明显增加.NaCl处理对植株生长的抑制程度明显高于Ca(NO3)2处理.     

低氧大鼠脑线粒体体外转录活性的研究

目的：探讨低氧对大鼠脑线粒体DNA表达的影响及其与能量生成的关系。方法：雄性Wistar大鼠随机分为3组：急性低氧组（AH）、慢性低氧组（CH）和对照组,其中急、慢性低氧组动物分别连续暴露于模拟海拔4000m高原3d(AH)和40d（CH）。分离脑线粒体,分别测定线粒体体外转录活性、F0F1－ATP酶活性以及ATP对线粒体体外转录的影响。结果：急性低氧大鼠脑线粒体体外转录活性及F0F1－ATP酶活性显著降低,慢性低氧时有所回升,两者呈线性相关。ATP对大鼠脑线粒体体外转录活性呈双相效应。结论：低氧时脑线粒体转录活性改变可能参与低氧抑制线粒体能量代谢的机制,ATP可能通过反馈作用对线粒体转录进行微调。     

大鼠心肌整体缺血及离体再灌注致生物膜的损伤作用

目的和方法：利用整体大鼠异丙肾上腺素损伤（ISO）和离体大鼠全心停灌／再灌（I／R）两种模型,观察了心肌缺血和缺血／再灌注对心肌生物膜－线粒体膜及肌纤维膜损伤的影响。结果：ISO（5mg/kg,皮下注射）和I／R（20min/20min)可导致大鼠心脏生物膜产生严重损伤,表现为心肌线粒体脂质过氧化产物明显增加,线粒体磷脂酶A2（PLA2）激活,从而导致线粒体膜磷脂（PL）含量减少,磷脂分解产物游离脂肪酸（FFA）增加,膜脂流动性（LFU）降低,线粒体Ca^2 -ATPase及肌纤维膜Na^ ,K^ -ATPase活性降低,线粒体呼吸功能降低、呼吸链氧化磷酸化解偶联,高能磷酸化合物生成减少。结论：整体ISO和离体I／R可导致大鼠心肌线粒体、肌纤维膜结构和功能损伤。     

补铁对低氧训练大鼠肝脏线粒体呼吸链功能的影响

目的:探讨补铁对低氧训练大鼠肝脏线粒体呼吸链功能的影响。方法:实验分为低氧对照组(HC),低氧训练组(HT),小剂量补铁+低氧训练组(SHT),中剂量补铁+低氧训练组(MHT),大剂量补铁+低氧训练组(LHT),比较各组大鼠肝脏线粒体呼吸链酶复合体Ⅰ~Ⅳ(CⅠ~Ⅳ)的活性。结果:1与HC组相比:HT组CⅠ、CⅡ活性均显著提高(P0.01),CⅢ、CⅣ活性均有显著下降(P0.05,P0.01);SHT组CⅠ~Ⅳ活性均显著提高(P0.05,P0.01),MHT组CⅠ、CⅢ和CⅣ活性均显著提高(P0.05,P0.01);LHT组CⅠ和CⅣ活性均显著提高(P0.01),CⅢ活性显著下降(P0.01)。2与HT组相比:SHT组CⅠ活性显著性下降(P0.05),CⅢ和CⅣ活性均显著提高(P0.01);MHT组CⅠ和CⅡ活性均显著降低(P0.01),CⅢ和CⅣ活性均显著提高(P0.01);LHT组CⅡ活性显著降低(P0.01),CⅣ活性显著提高(P0.01)。结论:低氧训练及复合补铁,对肝脏线粒体呼吸链功能的影响较为复杂,在提高呼吸链起始酶活性方面单独的低氧训练效果最佳,在提高呼吸链关键酶活性方面,小剂量和中剂量补铁的效应要好于大剂量补铁,大剂量补铁要好于单独的低氧训练。合理的低氧训练及补铁有可能改善线粒体呼吸链功能,但低氧训练期间补铁应慎重。     

铜、镉对三种豆科植物生长及氮磷钾含量的影响

为了解豆科植物在Cu、Cd单一污染土壤中的生长状况及对土壤养分的吸收利用特点,采用盆栽实验研究了Cu~(2+)、Cd~(2+)单一污染下紫花苜蓿、红三叶、沙打旺3种豆科植物的株高、根长、生物量和叶、茎部N、P、K、Cu和Cd含量的变化情况.Cu~(2+)、Cd~(2+)处理浓度分别为:0、400、800、1200 mg·kg~(-1)和0、1、10、20 mg·kg~(-1).结果表明,3种豆科植物对Cu和Cd均有较强的吸收能力,除红三叶叶片中Cu含量外,3种豆科植物根、茎、叶中Cd和Cu的含量均与土壤中重金属添加量呈显著正相关.3种豆科植物在严重Cd~(2+)污染的土壤中均能正常生长.在Cu~(2+)添加量≤1200 mg·kg~(-1)时,红三叶能正常生长,而紫花苜蓿的生长则受到显著抑制作用,沙打旺在Cu~(2+)添加量≥800 mg·kg~(-1)时生长受到抑制.土壤Cu~(2+)添加量≤1200 mg·kg~(-1)时,能促进紫花苜蓿对N、P、K的吸收;Cu~(2+)添加量≤800 mg·kg~(-1)时,对红三叶N、P、K含量没有明显影响;Cu~(2+)添加量≤400 mg·kg~(-1)时,可提高沙打旺中N、P、K含量,但当Cu~(2+)添加量≥800 mg·kg~(-1)时则显著降低.土壤Cd~(2+)添加量≤20 mg·kg~(-1)时,对紫花苜蓿和红三叶茎叶以及沙打旺茎部的N、P、K含量有促进作用,但对沙打旺叶片的N、P、K含量起抑制作用.总体来看,3种豆科植物对Cu~(2+)和Cd~(2+)均有一定的耐性,红三叶对Cu~(2+)的耐性较好,紫花苜蓿对Cd~(2+)的耐性较好.

Abstract：

Aimed to understand the growth status and nutrient uptake of leguminous plants under soil copper-or cadmium contamination, a pot experiment with Medicago sativa, Trifolium pre-tense, and Astragalus adsurgens was conducted, with their plant height, root length, plant bio-mass, and N, P, K, Cu and Cd contents in leaf and stem measured. The application amounts of Cu~(2+) and Cd~(2+) were 0,400, 800, and 1200 mg·kg~(-1), and 0, 1, 10, and 20 mg·kg~(-1), re-spectively. All the test three leguminous plants had strong capability of absorbing Cu and Cd.The Cu and Cd contents in their roots, stems, and leaves, except the Cu content in T. Pratease leaf, were significantly positively correlated with the application amounts of Cu~(2+) and Cd~(2+). Un-der the application of Cd~(2+), all the three leguminous plants grew normally. When the application amount of Cu~(2+) was≤1200 mg·kgM-1, T. Pratense grew normally, while the growth of M. Sativa was significantly inhibited. The growth of A. Adsurgens was inhibited when the application amount of Cu~(2+) was≥800 mg·kg~(-1). An apphcation amount of≤1200 mg·kg~(-1) of Cu~(2+) pro-moted the N, P and K absorption of M. Sativa, but applying≤800 mg·kg~(-1) of Cu~(2+) had little effects on the N, P and K absorption of T. Pretense. The N, P and K contents of A. Adsurgens in-creased when the application amount of Cu~(2+) was ≤400 mg·kg~(-1), but decreased significantly when the Cu~(2+) application amount was≥800 mg·kg~(-1). When the application amount of Cd~(2+)was≤20 mg·kg~(-1) , the N, P and K contents in M. Sativa and T. Pratense stems and leaves and in A. Adsurgens stem increased, while those in A. Adsurgens leaf decreased. As a whole, the three leguminous plants all had certain tolerance to Cu~(2+) and Cd~(2+) stresses, especially T. Prat-ease to Cu~(2+) and M. Sativa to Cd~(2+).     

Synthesis of [2S-2-H]- and [2R-2-H]hexadecanoic acids

[2S-2-²H]- and [2R-2-²H]hexadecanoic acids were synthesized in overall yields of 59–67%. Methyl(2R)-2-hydroxyhexadecanoate, from the acid produced by Hansenula sydowiorum, was converted to the p-toluenesulphonate, reduced to trideutero alcohol with lithium aluminium deuteride and oxidized to [2S-2-²H]hexadecanoic acid. Methyl (2S)-2-chlorohexadecanoate, which was a by-product of tosylation and was also prepared by chlorinatioon of the hydroxy ester with thionyl chloride, on reduction and oxidation as before gave [2R-2-²H]-hexadecanoic acid. Intermediates were fully characterized, isotopic purity was 97% and optical purity was maintained throughout the syntheses. Attempts to reduce the tosyl or chloro groups, only, with sodium borodeuteride gave low yields probably due to preferential reduction of the ester group; 1,2-epoxyhexadecane was obtained from the tosylate and 2-chlorohexadecan-1-ol from the chloro ester.     

玉米O2/o2近等基因系胚乳中基因表达差异分析

对玉米Hz85(O2/O2)和 Hz85(o2/o2)以及S7913(O2/O2)和 S7913 (o2/o2)两种不同核背景下的近等基因系(NIL),采用cDNA芯片杂交技术研究玉米o2突变基因及赖氨酸形成和胚乳发生相关基因在RNA水平上的表达差异。在两套NILs中检测到共同的表达差异克隆87个,对其序列分析得到26个TUGs（tentative unique genes）、11个未命名蛋白和6个新序列。这些TUGs分别参与了生长发育、胁迫响应、物质运输、信号转导、电子传递链、细胞防御、代谢等细胞过程,以及作为细胞组分和贮存蛋白。基于O2/o2 NILs间胚乳发育中基因表达的差异,讨论了o2籽粒中的不透明粉质胚乳形成的分子机制。     

Determination of the extraction kinetics for the quantification of polyhydroxyalkanoate monomers in mixed microbial systems

For the first time, a systematic approach was conducted to determine the key factors influencing the kinetics of hydroxyalkanote (HA) extraction in biological systems. Six mixed microbial systems where polyhydroxyalkanoate (PHA) is produced were evaluated. Experiments were carried out for full-scale and lab-scale activated sludge systems using different configurations (containing floccular or granular sludge), as well as specific PHA accumulating cultures that contain high or low intracellular PHA fractions. The overall reaction was limited by the kinetics of the PHA hydrolysis in floccular cultures, whereas in granular cultures, it was limited by the cell lysis step. The monomeric composition of the polymer also had an impact on the HA extraction rate: higher acid concentration and a longer digestion time should be employed when cells accumulate monomers with more substituents, such as hydroxy-2-methylbutyrate (H2MB) and hydroxy-2-methylvalerate (H2MV). This study optimised the method for HA extraction, which impacts the assessment of the quantity and quality of PHA biopolymers.     

Activation of the UPR Protects against Cigarette Smoke-induced RPE Apoptosis through Up-Regulation of Nrf2

Recent studies have revealed a role of endoplasmic reticulum (ER) stress-induced unfolded protein response (UPR) in the regulation of RPE cell activity and survival. Herein, we examined the mechanisms by which the UPR modulates apoptotic signaling in human RPE cells challenged with cigarette smoking extract (CSE). Our results show that CSE exposure induced a dose- and time-dependent increase in ER stress markers, enhanced reactive oxygen species (ROS), mitochondrial fragmentation, and apoptosis of RPE cells. These changes were prevented by the anti-oxidant NAC or chemical chaperone TMAO, suggesting a close interaction between oxidative and ER stress in CSE-induced apoptosis. To decipher the role of the UPR, overexpression or down-regulation of XBP1 and CHOP genes was manipulated by adenovirus or siRNA. Overexpressing XBP1 protected against CSE-induced apoptosis by reducing CHOP, p-p38, and caspase-3 activation. In contrast, XBP1 knockdown sensitized the cells to CSE-induced apoptosis, which is likely through a CHOP-independent pathway. Surprisingly, knockdown of CHOP reduced p-eIF2α and Nrf2 resulting in a marked increase in caspase-3 activation and apoptosis. Furthermore, Nrf2 inhibition increased ER stress and exacerbated cell apoptosis, while Nrf2 overexpression reduced CHOP and protected RPE cells. Our data suggest that although CHOP may function as a pro-apoptotic gene during ER stress, it is also required for Nrf2 up-regulation and RPE cell survival. In addition, enhancing Nrf2 and XBP1 activity may help reduce oxidative and ER stress and protect RPE cells from cigarette smoke-induced damage.     

大鼠心肌肌浆网的纯化及其性质研究

 用超声波破碎心肌细胞,差速离心法纯化大鼠心肌肌浆网(CSR)。SDS-聚丙烯酰胺凝胶电泳测得Ca~(2+)-ATPase分子量为98kD;电镜观察膜制备为完整的CSR微囊;标志酶哇巴因敏感型Na~(+),K~(+)-ATPase和叠氮化钠敏感型Mg~(2+)-ATPase活性表明膜制备中肌膜含量很低,但仍有线粒体污染。 用~(45)Ca~(2+)示踪微孔滤膜法研究Ca~(2+)跨膜转运,CSRCa~(2+)蓄集最大值为57nmol/mg蛋白。CSR Ca~(2+)-ATPase在4℃—21℃和21℃—49℃两区间反应活化能不同,前者大于后者。酶的最适pH为7.4。以ATP为底物,该酶有两个表观Km值:Km_1为3.7μmol/LKm_2为713μmol/L。     

Cis-trans isomerization of nitrofuran derivatives by xanthine oxidase

Enzymatic cis-trans isomerization of nitrofuran derivatives was 3-(5-Nitro-2-furyl)-2-(2-furyl)-demonstrated with milk xanthine oxidase. acrylamide (AF-2) and 3-(5-nitro-2-furyl)-2-(5-bromo-2-furyl)acrylamide (NFBFA) were mainly converted from the cis to the trans form by this enzyme supplemented with an electron donor. This enzymatic reaction was further characterized with respect to its cofactor requirements. Finally, a new cis-trans isomerization mechanism, which is based on transfer of a single electron by a nitroreductase such as xanthine oxidase to a nitrofuran derivative to give the anion free radical, was proposed.     

Direct regulation of IL-2 by curcumin

Interleukin-2 (IL-2) is a crucial growth factor for both regulatory and effector T cells. Thus, IL-2 plays a critical role in the stimulation and suppression of immune responses. Recently, anti-IL-2 antibodies (Abs) have been shown to possess strong IL-2 modulatory activities by affecting the interaction between IL-2 and IL-2 receptors. In this study, we screened an herbal library to identify a compound that regulates IL-2, which resulted in the identification of curcumin as a direct binder and inhibitor of IL-2. Curcumin is a phytochemical with well-known anti-cancer properties. In this study, curcumin mimicked or altered the binding pattern of anti-IL-2 Abs against IL-2 and remarkably inhibited the interaction of recombinant IL-2 with the IL-2 receptor α, CD25. Interestingly, curcumin neutralized the biological activities of IL-2 both in vitro and in vivo. In this report, we elucidated the unsolved mechanism of the anti-cancer effect of curcumin by identifying IL-2 as a direct molecular target. Curcumin, as a small molecule IL-2 modulator, has the potential to be used to treat IL-2 related pathologic conditions.     

Regulation of erythroid differentiation by miR-376a and its targets

Lineage differentiation is a continuous process during which fated progenitor cells execute specific programs to produce mature counterparts. This lineage-restricted pathway can be controlled by particular regulators, which are usually exclusively expressed in certain cell types or at specific differentiation stages. Here we report that miR-376a participates in the regulation of the early stages of human erythropoiesis by targeting cyclin-dependent kinase 2 (CDK2) and Argonaute 2 (Ago2). Among various human leukemia cell lines, miR-376a was only detected in K562 cells which originated from a progenitor common to the erythroid and megakaryotic lineages. Enforced expression of miR-376a or silencing of CDK2 and Ago2 by RNAi inhibits erythroid differentiation of K562 cells. Hematopoietic progenitor cells transduced with miR-376a showed a significant reduction of their erythroid clonogenic capacity. MiR-376a is relatively abundant in erythroid progenitor cells, where it reduces expression of CDK2 and maintains a low level of differentiation due to cell cycle arrest and decreased cell growth. Following erythroid induction, miR-376a is significantly down-regulated and CDK2 is released from miR-376a inhibition, thereby facilitating the escape of progenitor cells from the quiescent state into erythroid differentiation. Moreover, our results establish a functional link between miR-376a and Ago2, a key factor in miRNA biogenesis and silencing pathways with novel roles in human hematopoiesis.