Ultrastructural study of oogenesis in Phoronopsis harmeri (Phoronida)

Temereva, E.N., Malakhov, V.V. and Yushin, V.V. 2011. Ultrastructural study of oogenesis in Phoronopsis harmeri (Phoronida). —Acta Zoologica (Stockholm) 92 : 241–250. The successive stages of oogenesis in Phoronopsis harmeri were examined by electron microscopy methods. During the oogenesis, each oocyte is encircled by vasoperitoneal (coelomic) cells forming a follicle. The previtellogenic oocytes are small cells which accumulate ribosomes for future synthesis; their cytoplasm contains characteristic clusters of mitochondria and osmiophilic particles resembling a germ plasm of other metazoans. The cytoplasm of the vitellogenic oocytes includes numerous mitochondria, cisternae of the rough endoplasmic reticulum, Golgi bodies and annulate lamellae. The synthesis of three types of inclusions was observed: strongly osmiophilic granules (lipid droplets) as a prevalent component, distinctly larger granules surrounded by membrane (proteinaceous yolk) and numerous large vesicles with pale flocculent content. No inclusions which could be unequivocally interpreted as the cortical granules were detected. The surface of the vitellogenic oocytes is covered by microvilli which increase in number and length during development. The oogenesis in Phoronida may be interpreted as follicular because of close association of oocytes with the vasoperitoneal tissue. However, well‐developed synthetic apparatus together with a strongly developed microvillous surface and absence of endocytosis indicate a clear case of autosynthetic vitellogenesis. Thus, in phoronids, there is a combination of simply developed follicle and autosynthesis that, apparently, is plesiomorphic character.     

果蝇原生殖细胞特化的分子机制

原生殖细胞在许多有性生殖动物的胚胎发育早期就已特化出来,并进一步分化为生殖细胞以产生新的子代。动物原生殖细胞的特化主要有生殖质决定和诱导两种模式,果蝇原生殖细胞的特化模式属于前者。研究表明,果蝇原生殖细胞特化过程中生殖质组装的关键基因是osk,其调控下游基因转录产物的定位和翻译,如vas和tud。此外,基因转录沉默是原生殖细胞特化过程的一个重要特征,其与生殖质中的成分如基因nos、gcl、pgc的表达产物密切相关。现对果蝇原生殖细胞特化分子机制进行综述。     

Comparisons of methods for introgressing exotic germ plasm into adapted sorghum

The incorporation of exotic germ plasm into breeding populations can broaden and diversify the genetic base of adapted genotypes. To more effectively utilize the genetic resources existing in Sorghum bicolor (L.) Moench, a rapid and efficient method of incorporating exotic genotypes into adapted populations is needed. Therefore, this study was conducted to compare the effectiveness of backcrossing to a broad-based population versus backcrossing to an inbred line for developing improved lines from adapted x exotic crosses. A wild sorghum, a cultivated landrace, and a converted sorghum line were crossed to an inbred line (CK60) and a broad-based population (KP9B). After two generations of backcrossing to the respective adapted parent, 50 F₂ lines were derived from each of the backcross generations of every mating and evaluated at three test environments. Backcrossing to an inbred line (CK60) gave fewer high-yielding segregates and generated less genetic variation than backcrossing to a population (KP9B). Also, the number of agronomically acceptable lines derived from each CK60 mating was fewer than that derived from the corresponding mating with KP9B. Overall, the use of a broad-based population as an adapted recurrent parent for introgressing exotic genotypes may provide good opportunities for developing suitable inbred lines from adapted x exotic backcrosses.Contribution no. 93-499-J from the Kansas Agricultural Experiment Station     

秦岭黄果悬钩子野生种质资源与引种试验研究

对黄果悬钩子在秦岭山区的分布、习性、果实经济性状、营养成分、产量构成以及引种栽培条件下的物候期、根系特征、发枝习性,繁殖特点等内容的研究结果表明,黄果悬钧子植株矮小,具有较耐旱的根系组成特点;果大,质优、风味好,营养丰富;适应性较强,容易繁殖,是一种优良的栽培树萄果树引种驯化,矮化育种野生种质资源。     

Tudor and its domains： germ cell formation from a Tudor perspective

In many metazoan species, germ cell formation requires the germ plasm, a specialized cytoplasm which often contains electron dense structures. Genes required for germ cell formation in Drosophila have been isolated predominantly in screens for maternal-effect mutations. One such gene is tudor (tud); without proper tud function germ cell formation does not occur. Unlike other genes involved in Drosophila germ cell specification tud is dispensable for other somatic functions such as abdominal patterning. It is not known how TUD contributes at a molecular level to germ cell formation but in tud mutants, polar granule formation is severely compromised, and mitochondrially encoded ribosomal RNAs do not localize to the polar granule. TUD is composed of 11 repeats of the protein motif called the Tudor domain. There are similar proteins to TUD in the germ line of other metazoan species including mice. Probable vertebrate orthologues of Drosophila genes involved in germ cell specification will be discussed.     

Structure of the ovaries of the primitive aphids Phylloxera coccinea and Phylloxera glabra (Hemiptera,Aphidinea: Phylloxeridae)

Ovaries of phylloxerids consist of short telotrophic ovarioles. Ovaries of wingless morphs contain four ovarioles whereas those of winged morphs contain one or two ovarioles. The individual ovariole of the adult female is differentiated into a terminal filament, trophic chamber (tropharium), vitellarium and short ovariole stalk (pedicel). The number of germ cells constituting ovarioles is not stable and ranges between 49 and 64. The tropharia enclose individual trophocytes and arrested oocytes. The vitellaria contain usually two oocytes, which develop through three stages: previtellogenesis, vitellogenesis and choriogenesis. Endosymbiotic microorganisms do not occur in the germ cells. In the light of the obtained results, the phylogenetic relationships between aphid families are discussed.     

菜豆种质形态及等位酶标记的研究

收集了黑龙江省43 份栽培品种, 国际热带农业中心13 份半野生品种, 波兰4 份矮生品种共60 份菜豆品种资源, 测定其植物学、生物学性状, 采用标准差标准化方法, 计算各材料间的欧氏距离, 其范围为0.110~0.985;从等位酶标记上进行了10 个酶系统检测, 共获得25 个位点, 多态位点比率为0.16, 其平均遗传距离为0.056 8 。根据计算所得60 份材料间的遗传相似度, 开展形态标记亲缘关系系统聚类图, 将其分为两大类, 即矮生种为一类, 蔓生种及半野生种合为一类。采用平均距离法, 将等位酶标记聚成8 大类, 其中蔓生种占5 类, 矮生种2 类, 半野生种2 类, 说明等位酶标记较具体, 且蔓生种遗传距离较远, 可作为育种材料储备种质资源。     

Delayed fertilization of anuran amphibian (Xenopus) eggs leads to reduced numbers of primordial germ cells

Several media were tested for the extent to which they promoted high fertilization efficiencies in ovulated, stripped Xenopus eggs. One medium was selected for maintaining eggs in a ‘delayed fertilization’ (DelF) condition. DelF eggs displayed several unusual characteristics, including shift of the center of gravity, prominent sperm entrance site, and occasional polyspermy. The frequency of normal pattern formation varied according to the length of time eggs were maintained in the DelF condition. Various developmental abnormalities were observed during gastrulation, neurulation, and organogenesis. Most abnormalities appeared, however, to be related to morphogenesis of the endoderm. Primordial germ cell (PGC) development was examined in DelF eggs which displayed normal external morphological features at the swimming tadpole stage. PGC counts were usually normal in short-duration (eg, 5 hr) DelF eggs, but frequently substantially reduced or completely diminished in longer-duration (eg, 25hr) tadpoles. Six spawnings were compared and shown to exhibit considerable variability in fertility, morphogenesis, and PGC development. Yolk platelet shifts and developmental parameters were examined in two additional spawnings. The subcortical cytoplasm in which the germ plasm is normally localized appeared to be disrupted in longer duration DelF eggs. That observation may account for low PGC counts in DelF tadpoles.     

Mitochondrial DNA variation in natural populations of the mushroom Agaricus bisporus

We investigated the patterns of mitochondrial DNA variation in the global population of the commercial mushroom Agaricus bisporus . Through the analysis of RFLP's among 441 isolates from nine countries in North America and Eurasia, we found a total of 140 mtDNA haplotypes. Based on population genetic analysis, there are four genetically distinct natural populations in this species, found in coastal California, desert California, France and Alberta (Canada). While 134 of the 140 mtDNA haplotypes were unique to single geographical regions, two mtDNA haplotypes, mt001 and mt002, were found in almost every population surveyed. These two mtDNA haplotypes also predominate among cultivars used throughout the world for at least the last two decades. These two mtDNA haplotypes are more similar to the cosmopolitan groups of mtDNA haplotypes than to the indigeneous clusters of mtDNA haplotypes from the two Californian regions.