新疆野苹果(Malus sieversii(Ledeb.) M.Roem.)植物学性状遗传多样性及相关性分析

为加强野苹果种质资源利用与研究,促进野苹果研究工作,以3年来调查收集的新疆野苹果(赛威士苹果)的129个单株资源为材料,对单果重、果实纵横经、叶片大小等12个数量性状和叶片颜色、叶尖类型等5个质量性状进行遗传多样性及相关性分析。分析结果表明:叶片颜色、叶尖类型、叶姿、叶缘、叶面状态5个质量性状分布频率较集中;单果重、果实纵横经、叶柄长、叶片长宽、可溶性固形物、干周、树高均存在较大变异,变异系数幅度为16%~51%。各性状多样性指数也较大,均值为1.9264,叶片长的多样性指数最小为1.7359;果梗长的多样性指数最大为2.0525。新疆野苹果资源拥有丰富的遗传多样性,在于果实相关性状的多样性指数高,且变异幅度大,表明丰富的遗传多样性是新疆野苹果资源的重要特征。     

心衰患者动脉血气波浪式变化及其幅度降低的初步实验证据*

目的: 心力衰竭患者呼吸调控异常的机制众说纷纭,特别是动脉血气周期性波浪式变化信号的改变及其与心功能的关系尚缺乏直接的试验证据。本文依据心力衰竭患者动脉血气周期性波浪式变化信号的降低幅度,探讨心力衰竭导致呼吸调控异常的机制。方法: 选择5名心力衰竭患者,连续桡动脉逐搏取血,测定PaO₂,PaCO₂,pHa和SaO₂。选取2个典型呼吸周期,用于分析动脉血气的波浪式变化。比较患者相邻最高和最低值,以验证是否存在周期性波浪式信号变化。此外,将心力衰竭患者与心功能正常患者动脉血气周期性波浪式信号的变化幅度进行统计学t检验分析,比较有无差异。结果: 心力衰竭患者包括2例外科手术和3例ICU住院监护患者,4男1女,年龄(69±7)岁,身高(169±10)cm,体质量(75±19)kg,左心射血分数(LVEF)=(38±3)%。动脉血液充满肝素化细长塑化管需要17±2次心跳,即取血需要17±2次心跳,覆盖超过2个呼吸周期。心力衰竭患者PaO₂,PaCO₂,[H⁺]a和SaO₂均呈现明显的波浪式变化(P<0.05),幅度分别是(7.94±2.02)mmHg,(1.18±0.56)mmHg,(0.54±0.17)nmol/L和(0.21±0.07)%,分别是各自均值的(6.1±1.5)%,(3.2±1.5)%,(1.5±0.5)%和(0.2±0.1)%。与心功能正常患者比较,动脉血气波浪式变化幅度呈现明显降低趋势,但仅PaO₂和[H⁺]a有明显统计学差异(P<0.05)。结论: 采用连续逐搏动脉取血血气分析法证实,心力衰竭患者自主呼吸时动脉血气也有周期性波浪式变化信号,但其变化幅度较心功能正常患者明显降低。     

代谢、血液碱化和纯氧影响呼吸调控的人体实验研究II： 血液碱化后运动试验*

目的: 在完成吸入室内空气状态下症状限制性最大极限心肺运动试验(CPET)和动脉血气指标动态变化规律的基础上,进一步探讨体液酸碱度和CO₂含量对呼吸调控的影响。方法: 选正常志愿者5名,给予5%NaHCO₃(总量0.3 g/kg)分次口服,每5 min口服75 ml(3.75g )。总量服完1 h后,重复CPET。于静息、热身、运动及恢复期,连续测定肺通气指标及每分钟动脉取样的血气指标变化,并与本人在非碱化血液条件下对照数据进行配对t检验比较。结果: 碱化血液之后,CPET期间随着运动功率逐步递增,气体交换和血气指标的反应模式与非碱化血液对照相似（P>0.05）;即与静息状态比较,每分通气量、潮气量、呼吸频率、VO₂、VCO₂均呈现近于线性渐进性递增(P<0.05~0.001)。与碱化血液前吸入室内空气的对照比较：在碱化血液条件下,所有时间点血红蛋白浓度,PaCO₂与pH均显著提高(P<0.05);除无氧阈PaCO₂减低外,只有热身状态呈增高态势,统计学有显著差异(P<0.05);而PaO₂无差异(P>0.05),各状态均较对照状态减低,除恢复期外均有统计学差异(P<0.05)。与非碱化血液对照比较,除静息每分通气量低于对照(P<0.05）外,所有通气指标均无统计学差异(P>0.05)。结论: 碱化血液条件下, 尽管有更高的CaCO₂, PaCO₂ 和 pHa平均水平及更低的Hba和[H⁺]a平均水平,机体对CPET的呼吸反应模式基本相似。     

水稻脆秆突变体bc-s1的表型分析和基因定位

茎秆机械强度影响植株抗倒伏能力, 是备受关注的重要农艺性状之一。与野生型相比, 水稻(Oryza sativa)脆秆隐性突变体bc-s1茎秆抗折力和抗张力分别降低31.1%和67.2%, 茎秆纤维素和木质素含量分别降低24.97%和增高38.82%。细胞学分析显示, bc-s1茎秆厚壁细胞发生不规则变化, 次生壁增厚受阻。通过图位克隆和测序分析, 初步确定bc-s1突变体中纤维素合成酶催化亚基Os09g25490/OsCesA9基因第1外显子的第28个碱基G突变为A。该等位突变体的获得为进一步揭示OsCesA9调控细胞壁建成的生物学功能提供了新的研究材料。     

The Body Mass Index-Mortality Link across the Life Course: Two Selection Biases and Their Effects

In this study, we investigated two selection biases that may affect the obesity-mortality link over the life course: mortality selection and healthy participant effects. If these selection mechanisms are stronger among obese adults than among non-obese adults, they may contribute to the weakening obesity-mortality link over the life course. We used data from the National Health and Nutrition Examination Survey 1988–2010 with linked mortality files from 1988–2011. We employed weighted Cox models to test and adjust for these two selection biases. We also used complementary log-log models, adjusted for a normal distribution of frailty, to test for mortality selection effects; accelerated failure-time models to mitigate the mortality selection effect; and ordinary least squares regression to test for healthy participant effects. The link between class II/III obesity and mortality weakens at older ages. We did not find evidence for significant mortality selection or healthy participant effects. Also, even if the healthy participant effects were stronger among obese adults, they are not strong enough to produce a weakening association between obesity and morbidity at higher ages at the time of the survey. Therefore, neither of these selection biases explains the diminishing effect of class II/III obesity on mortality over the life course.     

Linkage of prostate cancer susceptibility loci to chromosome 1

Three prostate cancer susceptibility genes have been reported to be linked to different regions on chromosome 1: HPC1 at 1q24-25, PCAP at 1q42-43, and CAPB at 1p36. Replication studies analyzing each of these regions have yielded inconsistent results. To evaluate linkage across this chromosome systematically, we performed multipoint linkage analyses with 50 microsatellite markers spanning chromosome 1 in 159 hereditary prostate cancer families (HPC), including 79 families analyzed in the original report describing HPC1 linkage. The highest lod scores for the complete dataset of 159 families were observed at 1q24-25 at which the parametric lod score assuming heterogeneity (hlod) was 2.54 (P=0.0006) with an allele sharing lod of 2.34 (P=0.001) at marker D1S413, although only weak evidence was observed in the 80 families not previously analyzed for this region (hlod=0.44, P=0.14, and allele sharing lod=0.67, P=0.08). In the complete data set, the evidence for linkage across this region was very broad, with allele sharing lod scores greater than 0.5 extending approximately 100 cM from 1p13 to 1q32, possibly indicating the presence of multiple susceptibility genes. Elsewhere on chromosome 1, some evidence of linkage was observed at 1q42-43, with a peak allele sharing lod of 0.56 (P=0.11) and hlod of 0.24 (P=0.25) at D1S235. For analysis of the CAPB locus at 1p36, we focused on six HPC families in our collection with a history of primary brain cancer; four of these families had positive linkage results at 1p36, with a peak allele sharing lod of 0.61 (P=0.09) and hlod of 0.39 (P=0.16) at D1S407 in all six families. These results are consistent with the heterogeneous nature of hereditary prostate cancer, and the existence of multiple loci on chromosome 1 for this disease.     

Impaired Bone Homeostasis in Amyotrophic Lateral Sclerosis Mice with Muscle Atrophy

There is an intimate relationship between muscle and bone throughout life. However, how alterations in muscle functions in disease impact bone homeostasis is poorly understood. Amyotrophic lateral sclerosis (ALS) is a neuromuscular disease characterized by progressive muscle atrophy. In this study we analyzed the effects of ALS on bone using the well established G93A transgenic mouse model, which harbors an ALS-causing mutation in the gene encoding superoxide dismutase 1. We found that 4-month-old G93A mice with severe muscle atrophy had dramatically reduced trabecular and cortical bone mass compared with their sex-matched wild type (WT) control littermates. Mechanically, we found that multiple osteoblast properties, such as the formation of osteoprogenitors, activation of Akt and Erk1/2 pathways, and osteoblast differentiation capacity, were severely impaired in primary cultures and bones from G93A relative to WT mice; this could contribute to reduced bone formation in the mutant mice. Conversely, osteoclast formation and bone resorption were strikingly enhanced in primary bone marrow cultures and bones of G93A mice compared with WT mice. Furthermore, sclerostin and RANKL expression in osteocytes embedded in the bone matrix were greatly up-regulated, and β-catenin was down-regulated in osteoblasts from G93A mice when compared with those of WT mice. Interestingly, calvarial bone that does not load and long bones from 2-month-old G93A mice without muscle atrophy displayed no detectable changes in parameters for osteoblast and osteoclast functions. Thus, for the first time to our knowledge, we have demonstrated that ALS causes abnormal bone remodeling and defined the underlying molecular and cellular mechanisms.     

Effect of Heterogeneous Investments on the Evolution of Cooperation in Spatial Public Goods Game

Understanding the emergence of cooperation in spatial public goods game remains a grand challenge across disciplines. In most previous studies, it is assumed that the investments of all the cooperators are identical, and often equal to 1. However, it is worth mentioning that players are diverse and heterogeneous when choosing actions in the rapidly developing modern society and researchers have shown more interest to the heterogeneity of players recently. For modeling the heterogeneous players without loss of generality, it is assumed in this work that the investment of a cooperator is a random variable with uniform distribution, the mean value of which is equal to 1. The results of extensive numerical simulations convincingly indicate that heterogeneous investments can promote cooperation. Specifically, a large value of the variance of the random variable can decrease the two critical values for the result of behavioral evolution effectively. Moreover, the larger the variance is, the better the promotion effect will be. In addition, this article has discussed the impact of heterogeneous investments when the coevolution of both strategy and investment is taken into account. Comparing the promotion effect of coevolution of strategy and investment with that of strategy imitation only, we can conclude that the coevolution of strategy and investment decreases the asymptotic fraction of cooperators by weakening the heterogeneity of investments, which further demonstrates that heterogeneous investments can promote cooperation in spatial public goods game.     

CHCHD2 inhibits apoptosis by interacting with Bcl-x L to regulate Bax activation

Mitochondrial outer membrane permeabilization (MOMP) is a critical control point during apoptosis that results in the release of pro-apoptotic mitochondrial contents such as cytochrome c. MOMP is largely controlled by Bcl-2 family proteins such as Bax, which under various apoptotic stresses becomes activated and oligomerizes on the outer mitochondrial membrane. Bax oligomerization helps promote the diffusion of the mitochondrial contents into the cytoplasm activating the caspase cascade. In turn, Bax is regulated primarily by anti-apoptotic Bcl-2 proteins including Bcl-xL, which was recently shown to prevent Bax from accumulating at the mitochondria. However, the exact mechanisms by which Bcl-xL regulates Bax and thereby MOMP remain partially understood. In this study, we show that the small CHCH-domain-containing protein CHCHD2 binds to Bcl-xL and inhibits the mitochondrial accumulation and oligomerization of Bax. Our data show that in response to apoptotic stimuli, mitochondrial CHCHD2 decreases prior to MOMP. Furthermore, when CHCHD2 is absent from the mitochondria, the ability of Bcl-xL to inhibit Bax activation and to prevent apoptosis is attenuated, which results in increases in Bax oligomerization, MOMP and apoptosis. Collectively, our findings establish CHCHD2, a previously uncharacterized small mitochondrial protein with no known homology to the Bcl-2 family, as one of the negative regulators of mitochondria-mediated apoptosis.Apoptosis is a tightly regulated form of programmed cell death that is critical for proper embryonic development, tissue homeostasis and immune response. Aberrant regulation of apoptosis contributes to a wide range of ailments including autoimmune disorders, neurodegenerative diseases and cancer. Unlike necrotic cell death, apoptosis is a genetic program that is characterized by distinct morphological features such as membrane blebbing, chromatin condensation, DNA fragmentation and cell shrinkage.¹ In vertebrates, apoptosis can occur through two pathways: extrinsic, or receptor-mediated apoptosis, and intrinsic, or mitochondria-mediated apoptosis. Intrinsic apoptosis is induced by cellular stressors such as DNA damage, which lead to mitochondrial outer membrane permeabilization (MOMP), cytochrome c release from the mitochondrial intermembrane space, activation of cysteine proteases (caspases) and induction of apoptosis. Once MOMP occurs, cell death is thought to be inevitable. Therefore, much research has been devoted to elucidating the mechanisms and signaling pathways that govern this critical regulatory point in apoptosis.MOMP is controlled largely by the B-cell lymphoma 2 (Bcl-2) family of proteins,² all of which contain at least one of four BH (Bcl-2 homology) domains designated BH1–4. During apoptosis, the pro-apoptotic Bcl-2 proteins Bax and/or Bak become activated and oligomerize on the mitochondrial outer membrane³ increasing mitochondrial membrane permeabilization through a mechanism that is not entirely clear. Bax and Bak are activated by BH3-only Bcl-2 family proteins such as Bim, t-Bid and Puma.^{4, 5, 6, 7, 8, 9, 10, 11, 12, 13} Conversely, Bax and Bak are inhibited by pro-survival Bcl-2 family proteins such as Bcl-2, Mcl-1 and Bcl-xL.^{2, 14, 15, 16} Of the pro-survival Bcl-2 family proteins, Bcl-2 is found at the outer mitochondrial membrane, whereas Bcl-xL and Mcl-1 localize to the outer mitochondrial membrane and the mitochondrial matrix.^{17, 18} Matrix-localized Bcl-xL and Mcl-1 have been shown to promote mitochondrial respiration,¹⁹ suggesting that crosstalk exists between apoptotic pathways and other mitochondria-based biological events. Based on this recent discovery, one might reason that other mitochondrial proteins previously characterized as structural proteins or metabolism-associated enzymes could play an additional intermediate role in the regulation of apoptosis by interacting with Bcl-2 family proteins.We identified CHCHD2 in a mass spectrometry-based screen for binding partners of p32, a mitochondrial protein previously shown by our lab to bind and mediate the apoptotic effects of the tumor suppressor p14ARF.²⁰ CHCHD2 was subsequently detected in independent screens for proteins that regulate cellular metabolism and migration;^{21, 22} however, the functions of CHCHD2 remain unknown. CHCHD2 is encoded by the chchd2 gene (coiled-coil helix coiled-coil helix domain-containing 2), which spans 4921 base pairs, contains 4 exons, and is located on human chromosome 7p11.2, a chromosomal region that is often amplified in glioblastomas.²³ The protein encoded by the chchd2 gene is ubiquitously expressed²⁴ and is relatively small, as it codes for only 151 amino acids. CHCHD2 is well-conserved among different species from humans to yeast, and mouse and human CHCHD2 share 87% amino acid sequence identity (Supplementary Figures S1A and S1B). CHCHD2 contains a C-terminal CHCH (coiled-coil helix coiled-coil helix) domain, which is characterized primarily by four cysteine residues spaced 10 amino acids apart from one another (CX(9)C motif).²⁵ The function of the CHCH domain is not well understood, and the few characterized proteins that harbor this domain have diverse functions. Many CHCH domain-containing proteins localize to the mitochondrial inner membrane or the intermembrane space, including Cox12, Cox17, Cox19, Cox23, Mia40 (yeast homolog of human CHCHD4), CHCHD3 and CHCHD6. Cox17 and Cox19 aid in the assembly of the COX complex,^{26, 27} whereas Mia40/Tim40 has been shown to transport proteins into the mitochondrial intermembrane space.^{28, 29} Furthermore, CHCHD3 and CHCHD6 are essential for maintaining the integrity of mitochondrial cristae and thus mitochondrial function.^{30, 31, 32} Interestingly, a recent report has shown that CHCHD6 is regulated by DNA damage stress, and alterations in CHCHD6 expression affect the viability of breast cancer cells in response to genotoxic anticancer drugs.³²Despite advances in our understanding of how MOMP and apoptosis are regulated by the Bcl-2 family of proteins, much remains unknown with respect to the mechanisms that lead to Bax activation and oligomerization particularly concerning the roles that mitochondria-associated proteins play in the process. In this study, we characterize the small, mitochondria-localized protein CHCHD2 as a novel regulator of Bax oligomerization and apoptosis. Furthermore, we show evidence that CHCHD2 binds to Bcl-xL at the mitochondria under unstressed conditions. In response to apoptotic stimuli, CHCHD2 decreases and loses its mitochondria localization, which is accompanied by decreased Bcl-xL–Bax interaction and increased Bax homo-oligomerization and Bax–Bak hetero-oligomerization. Collectively, our results suggest that CHCHD2 negatively regulates the apoptotic cascade upstream of Bax oligomerization.     

Development of genome-wide insertion/deletion markers in rice based on graphic pipeline platform

DNA markers play important roles in plant breeding and genetics.The Insertion/Deletion(InDel) marker is one kind of co-dominant DNA markers widely used due to its low cost and high precision.However,the canonical way of searching for InDel markers is time-consuming and laborintensive.We developed an end-to-end computational solution(InDel Markers Development Platform,IMDP) to identify genome-wide InDel markers under a graphic pipeline environment.IMDP constitutes assembled genome sequences alignment pipeline(AGA-pipe) and next-generation resequencing data mapping pipeline(NGS-pipe).With AGA-pipe we are able to identify 12,944 markers between the genome of rice cultivars Nipponbare and 93-11.Using NGS-pipe,we reported 34,794 InDels from re-sequencing data of rice cultivars Wu-Yun-Geng7 and Guang-Lu-Ai4.Combining AGApipe and NGS-pipe,we developed 205,659 InDels in eight japonica and nine indica cultivars and 2,681 InDels showed a subgroup-specific pattern.Polymerase chain reaction(PCR)analysis of subgroup-specific markers indicated that the precision reached 90%(86 of 95).Finally,to make them available to the public,we have integrated the InDels/markers information into a website(Rice InDel Marker Database,RIMD,http://202.120.45.71/).The application of IMDP in rice will facilitate efficiency for development of genome-wide InDel markers,in addition it can be used in other species with reference genome sequences and NGS data.