A New Stem-splitting Symptom in Safflower Caused by Macrophomina phaseolina

Safflower is known to be attacked by several seed‐borne fungi, of which Macrophomina phaseolina is one of the most important pathogens causing serious yield losses. During routine experiments, a new stem‐split symptom was observed in M. phaseolina‐infected plants resulting in poor growth and reduced size of inflorescences. Stem‐split was observed in 30‐day‐old plants as minute cracks approximately 2–3 cm above the soil surface, which over time extended to both upward and downward directions, resulting in the formation of a wider split. The split portion was hollow and brown with a white to grey mycelial mat of the fungus on the inner surface. Such plants became lodged, ultimately resulting in poor seed yield compared with healthy plants. The stem‐split plants showed delayed flowering by 1 week over healthy plants. One of the three M. phaseolina isolates used for inoculation of seeds and plants was more aggressive but all isolates were able to reproduce the stem‐split symptoms found on naturally infected safflower plants in the field.     

Biodegradation of exploded cotton stalk by Bacillus sp.

The exploded bast, branch and stem of cotton stalk were degraded by alkalophilic Bacillus NT-19, with weight losses of 24%, 20% and 14%, respectively, after 14 d. Compared with a white-rot fungus (Phanerochaete chrysosporium), Bacillus NT-19 preferentially degraded the non-cellulose components of cotton stem. The relative degree of crystallinity of bast fibers decreased by 8% and the middle lamella was partially removed from the fiber bundle by the Bacillus.     

苎麻属野生植物纤维细胞形态结构与其经济性状和物理性能的关系

以13种苎麻属植物为试验材料,于植物工艺成熟期取样测定经济性状并用显微镜观察横截面及离析纤维细胞形态,研究苎麻属植物纤维细胞形态结构与其经济性状和物理性能的相关性。结果显示:(1)苎麻属野生种质的纤维细胞外观形态表现与栽培种苎麻基本一致,多呈圆形、多边形、椭圆形和肾形等,形态各异,大小不一。(2)茎秆横截面纤维细胞直径、腔径和纤维胞总数都明显少于对照栽培种,与其原麻产量存在不同程度的正相关性。(3)离析纤维细胞长度、宽度、壁厚和结节数与纤维细度存在不显著负相关,且野生苎麻属种质的细胞长度、宽度明显小于栽培种苎麻。研究表明,野生苎麻属种质在提高栽培种产量上无太大效应,但其在优良纤维基因选育方面和改良栽培种苎麻纤维品质上具有重要应用价值。     

Endophagous insects and structural niches on plants: ecology and evolutionary consequences

1. The endophagous weevil Lixus elongatus was studied on two Carduus species in order to look for the impact of a structural gradient in host plant stem diameter on the life cycle and the genetic structure of this species. 2. Body size of L. elongatus females was correlated positively with their fecundity and the stem diameter at the location of oviposition. 3. Emerging individuals showed a significantly positive relationship of body size with the stem diameter at their pupation and emergence site. Mating behaviour was positively size-assortative. 4. Allozyme analyses indicated a gradient of genetic differentiation along body size classes and a decreasing heterozygosity with decreasing body size. 5. The results led to the conclusion that a structural gradient in plants can promote body size variability in an endophagous herbivore through phenotypic constraints of the host plant and the herbivore. As size-assortative mating translates this variability into differential gene flow between individuals of different body size, this could provide the raw material for speciation processes. Within a single host plant patch, however, further processes are necessary to split the existing genetic gradient into separate gene pools.     

α-Mannosidase from Pineapple Fruit: Partial Purification and Action on Glycopeptides

α-Mannosidase [EC 3.2.1.24, α-D-mannoside mannohydrolase] from the acetone powder of pineapple fruit juice was purified 190-fold by column chromatographic procedures. The partially purified a-mannosidase was detected to be contaminated with little other glycosidases, using p-nitrophenyl derivatives of glycosides. The enzyme released mannose from both the carbohydrate moiety of stem bromelain and glycopeptide prepared from the parent protein. The enzyme split about 70% of the total mannose of ovalbumin glycopeptide.     

甘蓝型油菜抗茎倒材料的筛选与候选基因挖掘

该研究采用茎秆抗折力指标评价了200份甘蓝型油菜种质资源抗茎倒伏能力,据此筛选出极端抗茎倒材料和不抗茎倒材料各1份,随后测定了2份材料成熟期茎秆的理化组分含量,并对2份极端抗茎倒差异材料蕾苔期、盛花期茎秆进行转录组测序分析,为甘蓝型油菜抗茎倒伏的遗传改良奠定基础。结果表明:(1)200份甘蓝型油菜种质资源的茎秆抗折力和茎粗均为正态分布,均属于数量遗传性状,并依据茎秆抗折力和农艺性状筛选出生育期相近,株型相似,茎秆粗度差异不显著,但茎秆抗折力差异显著的极端不抗茎倒材料GY172和抗茎倒材料GY199。(2)GY199的韧皮部比GY172更加致密,而GY172成熟期茎秆中的半纤维素、木质素、中性洗涤纤维及总可溶性糖含量均显著高于GY199,而其纤维素含量极显著低于GY199,即成熟期茎秆纤维素含量与这2个材料的茎秆抗折力呈正相关。(3)蕾苔期、盛花期茎秆转录组测序发现,碳代谢、碳固定、磷酸戊糖途径、氨基酸的生物合成、糖酵解/糖异生等途径的14个基因(BnaA10G0056100ZS、BnaC08G0455100ZS、BnaA08G0262400ZS、BnaC08G0239700ZS、BnaA07G0362300ZS、BnaC02G0081300ZS、BnaC04G0273000ZS等)以及纤维素合成相关的9个基因(BnaA05G0152200ZS、BnaA01G0411100ZS、BnaA03G0018900ZS、BnaA03G0037800ZS等)在抗茎倒材料GY199中显著上调表达,这些基因可能参与调控了茎秆强度性状,可作为油菜抗茎倒候选基因。     

Chromosome-shuffling technique for selected chromosomal segments in Saccharomyces cerevisiae

We describe a novel chromosome engineering technique for shuffling selected regions of chromosomes from two strains in Saccharomyces cerevisiae: The technique starts with the construction of MAT a and MATα strains in which a particular chromosome is split at exactly the same site in both strains such that the split chromosomes generated are marked with different markers. The two strains are then crossed, and the resultant diploid is cultivated in nutrient medium to induce loss of the split chromosome originating from either of the strains. We predicted that some of these clones that are hemizygous for the split chromosome would spontaneously restore a homozygous configuration of the split chromosome during cultivation. We verified this prediction by tetrad analysis and quantitative Southern hybridization analysis, indicating that it is possible to create diploid hybrids in which a selected region of a chromosome from one strain is replaced by the corresponding chromosomal region from another strain. We also found that some chromosomal segments maintain a hemizygous state. This novel technique, which we call ‘chromosome shuffling’, could provide a new tool to analyze phenotypic alterations caused by the replacement or hemizygosity of a selected chromosomal region in not only laboratory but also industrial strains of S. cerevisiae.     

龙脷叶茎显微和薄层色谱鉴别的研究

龙脷叶( Sauropus spatulifolius Beille)为大戟科守宫木属植物,主要分布于我国的广西和广东等地,为广西常用壮药,具有润肺止咳、通便之功效,在民间使用广泛。现代研究表明,龙脷叶具有较好的抗炎和镇痛作用。全草均可入药,为国家药典收载品种。但其鉴别方法尚未完全建立,质量标准有待进一步完善。目前其叶与根的显微鉴别已有报道,而茎的鉴别未见有相关报道,因此有必要对龙脷叶茎的鉴别方法进行研究。该研究采用生药学显微鉴别和薄层色谱法对龙脷叶的茎进行了鉴别。结果表明：龙脷叶茎的主要显微特征为木栓层有7~12列细胞,皮层中含有较多淀粉粒,并含有纤维束,韧皮部窄,木质部宽,射线明显,髓部大;粉末可见螺纹、网纹及梯纹导管,伴有草酸钙簇晶,淀粉粒较小,有纤维。薄层色谱采用对照药材进行对照,发现样品斑点与对照药材斑点数量和位置一一对应。上述特征可作为鉴别和制定龙脷叶茎质量标准的参考依据,该研究结果为建立龙脷叶茎的鉴别方法以及进一步建立其质量标准提供了科学依据。     

海岛棉GbHCT13基因的功能验证

该研究利用海岛棉‘新海21’和陆地棉ND203以及模式植物拟南芥,通过转基因及荧光定量检测等方法探究海岛棉GbHCT13基因(GenBank 登录号MW048849)在纤维发育中的功能。结果显示：(1)成功构建重组载体pCAMBIA3301 GbHCT13,经农杆菌介导法转化、除草剂抗性基因筛选、荧光定量检测方法鉴定获得转GbHCT13基因拟南芥T₃代植株4株;qRT PCR检测表明,转基因植株中GbHCT13基因表达量较野生型极显著增加。(2)转基因拟南芥过表达GbHCT13基因使植株同一时期的生长较野生型旺盛,株形、叶片数、抽薹数和茎秆表皮毛数量均与野生型存在差异;组织化学分析发现,转GbHCT13基因的拟南芥较野生型茎秆初生木质部生长活跃,导管增粗,次生木质部导管细胞壁横截面积变大,但髓质细胞无明显变化;过表达GbHCT13使拟南芥中木质素合成途径基因发生不同程度改变,其中CAD、CCoAOMT、PAL和4CL与GbHCT13基因的表达呈正相关。(3)经大田筛选、分子鉴定,成功获得转GbHCT13基因棉花植株3株;转GbHCT13基因棉花的棉纤维伸长率增加,纤维强度增大;沉默GbHCT13基因使棉花植株木质素含量降低,茎秆表皮毛数量减少,木质部导管细胞数量减少,导管细胞壁中木质素沉积量降低,而棉株并未发生株高上的明显矮化现象,且木质素合成通路中的CAD、CCoAOMT、CCR、PAL 4个基因的表达均呈降低趋势,说明抑制GbHCT13使得棉花生长代谢受阻,影响纤维发育起始。研究表明,GbHCT13基因能影响棉花植株中木质素合成从而调控纤维的生长发育,其功能与GbHCT13基因在模式植物拟南芥中的基本一致。     

Glycogen synthesis from lactate in skeletal muscle of the lizardDipsosaurus dorsalis

Summary The capacity of skeletal muscle to synthesize glycogen from lactate was tested in the iliofibularis muscle of the desert iguana,Dipsosaurus dorsalis. Like other reptiles,Dipsosaurus accumulates significant lactic acid concentrations following vigorous exercise. After 5 min of progressively faster treadmill running at 35°C (final speed=2.2 km/h), blood lactate concentration increased over 14 mM, which decreased 11 mM after 2 h of recovery. Blood glucose concentration remained unchanged throughout at 8.6±0.46 mM. The role that muscle gluconeogenesis might play in the removal of post-exercise lactate was evaluated. Animals were run to exhaustion at 1.5 km/h on a treadmill thermostatted at 35°C. Animals (n=43) ran 6.9±0.75 min prior to exhaustion. Animals were sacrificed and iliofibularis muscles of both hindlimbs removed and stimulated at 2 Hz for 5 min, reducing twitch tension to 6% of prestimulus tension. Fatigued muscles were then split into red and white fiber bundles and incubated 2 h or 5 h at 35°C in Ringer solution or in Ringer plus 20 mM lactate. In muscles tested in August, red fiber bundles incubated in lactate demonstrated a rate of glycogen synthesis of approximately 1 mg/(g muscle·h). In muscles tested in December, red fiber bundles synthesized glycogen at a reduced rate that was not statistically different than in fiber bundles incubated in Ringer solution without lactate. Glycogen synthesis from lactate was not evident in white fiber bundles in either August or December. The period of peak gluconeogenic capacity coincides with the field active season ofDipsosaurus. In vivo rates of lactate removal and in vitro rates of glycogen synthesis suggest that muscle gluconeogenesis may potentially account for 20% of the lactate removed during recovery from exhaustive activity.Abbreviations IF iliofibularis - FG fast twitch, glycolytic - FOG fast twitch, oxidative-glycolytic     

Hypertrophic muscle fibers with fissures in power-lifters; fiber splitting or defect regeneration?

Power-lifters have hypertrophic muscle fibers with fissures seen in cross-sections, called as fiber splitting.Whether this phenomenon is due to real splitting or defective regeneration has not been settled. To elucidate this matter,we have examined biopsies from the trapezius and vastus lateralis of power lifters (P group) and power lifters self-administrating anabolic steroids (PAS group). For this purpose, immunohistochemical staining of serial cross -sections was used. The PAS group had significantly more fibers with fissures than the P group in the vastus lateralis (1.2%±0.95% vs 0.35±0.34, P<0.05) but not in the trapezius muscle (1.7% in both groups). Serial sections revealed that the fibers with fissures changed their profile profoundly over short distances. Some such fibers had a mature staining profile, whereas other fibers indicated recent degeneration and/or regeneration. Activation of satellite cells and formation of aberrant segments were also evident. We conclude that the so-called split fibers are due to defect regeneration. Some fibers with fissures are the results of old events of segmental muscle fiber damage, whereas the others reflect an ongoing process. The normal regenerative process is most likely disturbed in power-lifters by their continuous training with repeated high mechanical stress on the muscles.     

Comparative petiole anatomy of the tribe Sorbarieae (Rosaceae) provide new taxonomically informative characters

We conducted a comparative anatomical study of the petiole of 16 taxa belonging to the tribe Sorbarieae (Rosaceae) (Adenostoma, 2 spp.; Chamaebatiaria, 1 sp.; Sorbaria, 6 spp., 3 vars., and 1 forma; and Spiraeanthus, 1 sp.) and the related genus Lyonothamnus (1 sp. and 1 ssp.). The distal, medial and proximal regions of petioles were transversely sectioned using conventional embedding and staining methods. Cuticles, crystals, trichomes and pericyclic fiber patterns were observed and studied. Three types of vascular nodal patterns were recognized: Type 1 was seen in Chamaebatiaria, Lyonothamnus, and Spiraeanthus (simple‐trace nodal pattern with slightly curved or U‐shaped vascular bundle); type 2 was found in Adenostoma (multiple‐traces nodal pattern with free vascular bundles); and type 3 was unique to Sorbaria (bundles fused to form a siphonostele nodal pattern). Some petiolar anatomical characteristics (e.g. cuticles, crystals, trichomes, vascular nodal pattern, and pericyclic fiber patterns) were found to provide useful information for taxonomic studies within Sorbarieae. On the basis of these characteristics, a dichotomous key for identification at the generic/specific level is provided. We also report a structural change in the vascular bundles from the stem‐leaf transitional zone to the leaf medial zone.     

DEVELOPMENTAL ANATOMY OF THE STEM OF WELFIA GEORGII,IRIARTEA GIGANTEA,AND OTHER ARBORESCENT PALMS: IMPLICATIONS FOR MECHANICAL SUPPORT

Changes in stem anatomy with radial position and height were studied for the arborescent palms Welfia georgii, Iriartea gigantea, Socratea durissima, Euterpe macrospadix, Prestoea decurrens, and Cryosophila albida. Vascular bundles are concentrated toward the stem periphery and peripheral bundles contain more fibers than central bundles. Expansion and cell wall thickening of fibers within vascular bundles continues throughout the life of a palm, even in the oldest tissue. Within individual vascular bundles, the fibers nearest the phloem expand first and fiber cell walls become heavily thickened. A front of expanding fibers moves outward from the phloem until all fibers within a vascular bundle are fully expanded and have thick cell walls. Peripheral vascular bundles differentiate first and inner bundles later. In the stem beneath the crown, vascular bundles and ground tissue cells show little or no size increase, but marked cell wall thickening during development for Welfia georgii. Beneath the crown, diameters of peripheral vascular bundles increase more than twofold for Iriartea gigantea, while diameters of central bundles do not increase. In Iriartea stems, ground tissue cells at the periphery elongate to accommodate expanding vascular bundles and cell walls become thickened to a lesser degree than in fibers; central ground tissue cells elongate markedly, but cell walls do not become thickened; and large lacunae form between central parenchyma cells. For Iriartea, Socratea, and Euterpe, sustained cell expansion results in limited, but significant increases in stem diameter. For all species, sustained cell wall thickening results in dramatic increases in stem stiffness and strength.     

Elucidating the effects of laccase-modifying compounds treatments on bast and core fibers in flax pulp

Laccases in combination with various chemical compounds have been tested with a view to obtain environmental friendly, high‐value paper products from unbleached flax pulp, which is currently being assessed as a raw material for biotechnological innovation. With the aim of better understanding the effects of violuric acid (VA) and p‐coumaric acid (PCA) on flax pulp, changes in the chemical composition of the two major fiber types it contains were assessed. Following classification, the initial pulp was split into two fractions according to fiber size, namely: bast (long) fibers and core (short) fibers. Fiber size was found to significantly influence the properties of pulp and it response to various laccase treatments. The laccase‐PCA treatment substantially increased kappa number (KN) and color in both fiber fractions, which suggests grafting of the phenolic compound onto fibers. On the other hand, the laccase‐VA treatment produced long fibers with a low lignin content (KN = 1.3) and a high brightness (5% points higher than for the control fraction), which testifies to its bleaching efficiency. Both biotreatments produced long fibers containing highly crystalline cellulose and caused HexA removal from global and short fibers. On the other hand, the laccase treatments caused no morphological changes in the fibers, the integrity of which was largely preserved. As shown here, laccase acts as polymerization agent with PCA and as delignification agent with VA; also, the two enzymes systems act differently on bast and core fibers. Biotechnol. Bioeng. 2012;109: 225–233. © 2011 Wiley Periodicals, Inc.     

棉花微管结合蛋白基因GhCLASP1的克隆与表达分析

CLASP蛋白(CLASPs)是一种能够特异地与微管结合,参与调节微管结构与功能的微管结合蛋白(MAPs),在植物细胞形成、细胞伸长等方面起着关键作用。该研究利用电子克隆结合RT-PCR技术从陆地棉(Gossypium hirsutum L.)中克隆获得1个CLASP基因,命名为GhCLASP1(NCBI登录号为KP742966)。序列分析显示,GhCLASP1属于CLASP基因家族,开放阅读框长度为4 188bp,编码含1 395个氨基酸残基的蛋白;GhCLASP1蛋白含有1个HEAT重复结构域和2个CLASP-N端结构域。进化分析表明,GhCLASP1与可可树(Theobroma cacao)CLASP蛋白的亲缘关系最近。qRT-PCR分析表明,GhCLASP1在棉花的根、茎、叶、花及纤维发育的不同时期均有表达,且GhCLASP1基因表达量最大值出现在纤维发育次生壁加厚期(开花后27d),推测GhCLASP1基因可能对棉花纤维次生壁的形成起着重要的作用。利用本氏烟草(Nicotiana benthamiana)叶片瞬时表达系统对GhCLASP1基因编码的蛋白进行亚细胞定位结果显示,GhCLASP1蛋白定位在细胞膜上。上述结果为进一步研究CLASP基因在棉花中的功能奠定了基础。     

A new kinosternoid from the Late Cretaceous Hell Creek Formation of North Dakota and Montana and the origin of the <Emphasis Type="Italic">Dermatemys mawii</Emphasis> lineage

A nearly complete turtle shell from the Late Cretaceous (Maastrichtian) Hell Creek Formation of Slope County, North Dakota, represents the most complete remains to date of a Mesozoic kinosternoid turtle and a new species, Hoplochelys clark nov. sp. The new taxon is diagnosable from other representatives of Hoplochelys by the plesiomorphic placement of the humeral/femoral sulcus behind the hyo/hypoplastral suture and the autapomorphic development of an interrupted median (neural) keel. All six previously named Paleocene (Puercan and Torrejonian) representatives of Hoplochelys lack diagnostic characters and are synonymized as Hoplochelys crassa. A phylogenetic analysis reveals that Hoplochelys spp. and Agomphus pectoralis are most parsimoniously placed within Kinosternoidea along the phylogenetic stem of the extant Mesoamerican River Turtle Dermatemys mawii, extending that taxon’s stem lineage from the early Eocene to the late Maastrichtian. The two primary crown lineages of Kinosternoidea are thus known from the Mesozoic and split prior to the late Campanian. The presence of a thickened cruciform plastron, true costiform processes, only three inframarginals, and the reduction of the medial contact of the abdominals are synapomorphies of Chelydroidea, the clade formed by Chelydridae and Kinosternoidae.     

COMPARATIVE ANATOMY OF THREE SPECIES OF THE APOPHYLLOUS GENUS GYMNOPHYTON

The anatomy of three species of Gymnophyton has been studied by light and electron microscopy. The species are essentially leafless and morphologically they are very much alike, but they differ anatomically and can be characterized just by their anatomical differences. SEM revealed great differences in stomatal structure, orientation, and dimensions. Micro-channels (ectodesmata) in the guard cell walls were disclosed in great numbers in G. isatidicarpum by using interference contrast microscopy, and these structures are thought to function as pathways for wax precursors. In older stems of this species the epidermis and cortical palisade tissue are isolated by a continuous periderm layer. Before dying, the palisade cells undergo alterations, and the stomata are permanently closed by cuticular plugs between the guard cells or by fusion of the swollen adaxial parts of the subsidiary cells. Similar permanent closure mechanisms are not found in G. polycephalum and G. robustum, which also deviate by having their stomatal openings orientated at a right angle to the axis of the stem and by the occurrence of collenchyma strands instead of fiber strands along the stem corner ribs. Gymnophyton polycephalum and G. robustum seem to be more closely related to each other than either is to G. isatidicarpum, but they differ markedly from one another in the size and structure of their stomatal complexes.     

Developing laryngeal muscle of Xenopus laevis as a model system: androgen-driven myogenesis controls fiber type transformation

The developmental programs that contribute to myogenic stem cell proliferation and muscle fiber differentiation control fiber numbers and twitch type. In this study, we describe the use of an experimental model system-androgen-regulated laryngeal muscle of juvenile clawed frogs, Xenopus laevis-to examine the contribution of proliferation by specific populations of myogenic stem cells to expression of the larynx-specific myosin heavy chain isoform, LM. Androgen treatment of juveniles (Stage PM0) resulted in upregulation of an early (Myf-5) and a late (myogenin) myogenic regulatory factor; the time course of LM upregulation tracked that of myogenin. Myogenic stem cells stimulated to proliferate by androgen include a population that expresses Pax-7, a marker for the satellite cell myogenic stem cell population. Since androgen can switch muscle fiber types from fast to slow even in denervated larynges, we developed an ex vivo culture system to explore the relation between proliferation and LM expression. Cultured whole larynges maintain sensitivity to androgen, increasing in size and LM expression. Blockade of cell proliferation with cis-platin prevents the switch from slow to fast twitch muscle fibers as assayed by ATPase activity. Blockade of cell proliferation in vivo also resulted in inhibition of LM expression. Thus, both in vivo and ex vivo, inhibition of myogenic stem cell proliferation blocks androgen-induced LM expression and fiber type switching in juveniles.     

甘菊木质素调控转录因子ClSND1-like的克隆与表达分析

为了探索纤维特异表达的NAC类转录因子SND1(secondary wall-associated NAC domain protein1,SND1)在甘菊(Chrysanthemum lavandulifolium)生长发育及非生物胁迫中的作用,该研究从甘菊中克隆了ClSND1-like基因,并对其进行生物信息学、亚细胞定位及表达模式分析。结果发现:(1)ClSND1-like基因的编码区全长1185 bp,共计编码394个氨基酸,是一个不稳定的亲水性蛋白,与除虫菊基因亲缘关系较近。(2)亚细胞定位结果表明,ClSND1-like基因在叶中不表达,在茎的导管壁上特异表达,属于木质素特异表达基因。(3)实时荧光定量PCR结果发现,ClSND1-like基因在茎中表达量最高,在根和叶中表达量极低,且随着茎秆的老化,表达量逐渐升高;在渗透胁迫和盐胁迫中表达量均显著提高。研究推测,ClSND1-like基因与甘菊木质素形成相关,并参与调控植物生长及盐和渗透胁迫。该结果为ClSND1-like基因在甘菊生长和非生物胁迫抗性中的研究奠定了基础,也为菊属植物的生长及抗性研究提供了新思路。