Synchronization of encystment of <Emphasis Type="BoldItalic">Scrippsiella lachrymosa</Emphasis> (Dinophyta)

The encystment of Scrippsiella lachrymosa cells (strain B-10), which can be induced reliably in encystment medium, was inhibited by stirring the culture. 100 mL cultures in glass beakers were stirred at 1 rotation s⁻¹. Stirring inhibited vegetative cells from congregating (swarming) at the walls of the culture container. When stirring was stopped, a rapid induction of sexual reproduction was seen. As soon as stirring stopped (within 2 min), cells were observed swarming near the edges of the glass beaker. Four days after cessation of stirring, large percentages of the cells were mating and, after 7 days, most were zygotes. Cultures were observed after 31, 38, and, 45 days of stirring. When cultures were stirred for 45 days, cysts developed in the stirred treatments, but these cysts were attached to flocculent material that had also formed in the medium. The use of this laboratory method is advantageous for the study of the mating through cyst stages of the dinoflagellate life history. This method may also demonstrate the need for a ‘surface’ as a place for the dinoflagellate to congregate in order to successfully encyst and may help explain environmental observations of encystment at pycnoclines.     

Rearrangement of the flagellar apparatuses and eyespots of isogametes during the fertilization of the marine green alga,Monostroma nitidum (Ulvophyceae,Chlorophyta)

Behaviors of the flagellar apparatuses (flagella, basal bodies, microtubular roots, etc.), mating structures and eyespots of gametes during the fertilization of Monostroma nitidum were studied using field emission scanning electron microscopy and transmission electron microscopy. The biflagellate isogamete (mt⁺ and mt^?) mating structure has a position that is converse between mt⁺ and mt^? gametes relative to the flagellar beat plane and the eyespot. After the adhesion of mt⁺ and mt^? gametes, gamete fusion occurred between the two mating structures. The cell fusion plane expanded to the cell surface as circumscribed by 1s–2d roots in mt⁺ gamete and 1d–2s roots in the mt^? gamete. Two sets of flagellar apparatuses lay side by side in the planozygote and soon become mutually close. The no. 1 basal body of mt⁺ gamete and the no. 2 basal body of mt^? gamete rotated in a counterclockwise direction, as viewed from the cell anterior. Then, the no. 2 basal body of mt⁺ gamete and the no. 1 basal body of mt^? gamete slid into a face to face position. Finally, four flagella and basal bodies exhibited a cruciate arrangement. The basal bodies of the opposing pair (no. 1 and no. 2) were offset in a counterclockwise orientation by the basal body diameter. The 1s and 2d roots of the mt⁺ gamete lay nearly parallel to the 1d and 2s roots of the mt^? gamete, respectively, at the cell fusion plane. Because of the asymmetric localization of the mating structure, association, and subsequent rearrangement of basal bodies and microtubular roots, two eyespots lay on the same side of the planozygote. After the settlement of the planozygote, the flagellar apparatus started to disintegrate in the zygote cytoplasm.     

Characterization of the functional domains of boar acrosin involved in nonenzymatic binding to homologous zona pellucida glycoproteins

During the first steps of the gamete interaction, the proacrosin/acrosin system seems to play a crucial role in the secondary binding, holding acrosome-reacted spermatozoa during their passage through the zona pellucida. To analyze the functional domains of acrosin, we decided to express recombinant boar acrosin proteins in bacteria and to study their binding capacities to zona pellucida glycoproteins (ZPGPs). The expressed proteins were immunodetected by Western blot with a polyclonal antiacrosin antibody. The recombinant truncated β-acrosin has a typical hyperbolic curve of a zymogen enzymatic activation. Three of the five recombinant forms (truncated β-acrosin, Ser/Ala²²²-truncated β-acrosin, and truncated β-acrosin “heavy chain”) had the ability to bind ZPGPs. The two shorter forms (the amino and carboxy termini of truncated β-acrosin) failed to bind. The catalytic site mutant (Ser/Ala²²²) of truncated β-acrosin does not differ from the recombinant truncated β-acrosin in its mechanism of interaction to ZPGPs, indicating that this secondary binding is done by a nonenzymatic process. Our results show that binding between acrosin and ZPGPs depends on the secondary and tertiary structures of acrosin and does not depend on an active catalytic site. Mol. Reprod. Dev. 49:426–434, 1998. © 1998 Wiley-Liss, Inc.     

雌、雄配子体间及雌配子体成员细胞间的通讯

被子植物的双受精是一个复杂而精密的调控过程.成功的受精依赖于配子体的正确发育以及雌配子体与雄配子体间的相互识别.研究表明,雌配子体自身成员细胞间存在广泛的胞间通讯.这种通讯不仅影响不同细胞的发育进程,也决定细胞的发育命运,从而保证雌配子体的正常发育.此外,雌配子体与雄配子体间存在胞间通讯,这种胞间通讯是雌配子体与雄配子体间相互识别的分子基础,精确调控了雄配子体准确进入珠孔、在雌配子体内适时停止伸长、尖端破裂并在特定位置释放精细胞等过程.本文概述了这些方面的最新进展,梳理胞间通讯的途径与信号,并展望了未来雌、雄配子体间及雌配子体成员细胞间通讯的研究方向与可能的应用前景.     

Ultrastructure of the biflagellate gametes of Collinsiella cava (Ulvophyceae, Chlorophyta)

The fine structure of the biflagellate gametes of Collinsiella cava (Yendo) Printz was investigated in detail to clarify the species's taxonomic and phylo‐genetic position. Gametes are covered by small square scales with no distinct substructure. The chloroplast of the gamete includes an eyespot comprised of two layers of globules, and a pyrenoid that is traversed by one or a few thylakoids. Basal bodies overlap at their proximal ends and are offset in a counterclockwise orientation. Each basal body has a small bipartite terminal cap, a prominent proximal sheath comprised of two unequal subunits and a circular element situated at the cartwheel portion. A distal fibre, a connecting fibre and linkage between proximal sheaths connect the two basal bodies. Microtubular roots are comprised of two dexter (d) roots, subtended by the system I fibre, and two sinister (s) roots. Gametes have a single rhizoplast which extends parallel to one of the two d roots and extends to the mating structure. The ultrastructure of Collinsiella gametes is very similar to that of Mono‐stroma and other members of the Ulotrichales, Ulvophyceae, and we concluded that the genus Collinsiella should be treated as a member of the Monostromat‐aceae. The planozygote has four basal bodies, eight microtubular roots and two eyespots always situated at the same face of the cell. From observations of the planozygotes, the position of the mating structure relative to the flagellar apparatus is not consistent, but converse, between two mating types. A comparison of the location of the mating structure in Chlamydomonas and other green algae is presented.     

Analysis of the meiosis in the F_1 hybrids of Longiflorum × Asiatic(LA) of lilies(Lilium) using genomic in situ hybridization

Longiflorum and Asiatic lilies of the genus Lilium of the family Liliaceae are two important groups of modern lily cultivars.One of the main trends of lily breeding is to realize introgression between these groups.With cut style pollination and embryo rescue,distant hybrids between the two groups have been obtained.However,the F1 hybrids are highly sterile or some of them could produce a small number of 2n gametes,and their BC1 progenies are usually triploids.Dutch lily breeders have selected many cultivars...     

MAR1 links membrane adhesion to membrane merger during cell-cell fusion in Chlamydomonas

1. Download : Download high-res image (190KB)
2. Download : Download full-size image

     

Inheritance pattern of chloroplast DNA is correlated with gamete types based on sex-specific arrangement of the cell fusion site in Caulerpa (Ulvophyceae, Chlorophyta)

Using field emission scanning electron microscopy (FE‐SEM) and fluorescence microscopy, the respective relationships between the arrangement of the gamete cell‐fusion site and the inheritance pattern of chloroplast DNA (cp‐DNA) were studied for Caulerpa brachypus Harvey, C. okamurae Weber‐van Bosse, C. racemosa (Forsskål) J. Agardh var. laete‐virens (Montagne) Weber‐van Bosse, and C. serrulata (Forsskål) J. Agardh var. serrulata f. lata (Weber‐van Bosse) Tseng. The eyespot of the biflagellate gamete was visualized using FE‐SEM. The female gamete, but not the male, has one eyespot on the cell body posterior. In most mating pairs, the female gamete is fused at the anterior left side of the eyespot and the male gamete at a cell surface that is perpendicular to the plane of the flagellar beat when both gametes are mixed. Then, the inheritance pattern of cp‐DNA was observed using fluorescence microscopy after staining with 4′6‐diamidino‐2‐phenylindole. Male and female gametes have one cell nucleus and one chloroplast each. Chloroplasts of the female gamete usually contain 1–11 spherical or rod‐shaped nucleoids. In contrast, nucleoids are not usually detected in the male gamete’s chloroplast. After mixing male and female gametes, the male gamete without nucleoids and female gametes with nucleoids are always associated at the lateral side and become planozygotes. Such a correlation between the arrangement of the cell fusion site and the inheritance pattern of cp‐DNA was found in another member of Caulerpales, Bryopsis maxima Okamura. These results suggest the possibility that the arrangement of the cell fusion site in the gamete is not determined randomly regardless of sex, but is rather correlated with specific mating types. The relation of these results to those for Chlamydomonas is discussed.     

Human DCXR – another ‘moonlighting protein’ involved in sugar metabolism,carbonyl detoxification,cell adhesion and male fertility?

Dicarbonyl/l ‐xylulose reductase (DCXR; SDR20C1), a member of the short‐chain dehydrogenase/reductase (SDR) superfamily catalyzes the reduction of α‐dicarbonyl compounds and monosaccharides. Its role in the metabolism of l ‐xylulose has been known since 1970, when essential pentosuria was found to be associated with DCXR deficiency. Despite its early discovery, our knowledge about the role of human DCXR in normal physiology and pathophysiology is still incomplete. Sporadic studies have demonstrated aberrant expression in several cancers, but their physiological significance is unknown. In reproductive medicine, where DCXR is commonly referred to as ‘sperm surface protein P34H’, it serves as marker for epididymal sperm maturation and is essential for gamete interaction and successful fertilization. DCXR exhibits a multifunctional nature, both acting as a carbonyl reductase and also performing non‐catalytic functions, possibly resulting from interactions with other proteins. Recent observations associate DCXR with a role in cell adhesion, pointing to a novel function involving tumour progression and possibly metastasis. This review summarizes the current knowledge about human DCXR and its orthologs from mouse and Caenorhabditis elegans (DHS‐21) with an emphasis on its multifunctional characteristics. Due to its close structural relationship with DCXR, carbonyl reductase 2 (Cbr2), a tetrameric enzyme found in several non‐primate species is also discussed. Similar to human DCXR, Cbr2 from golden hamster (P26h) and cow (P25b) is essential for sperm–zona pellucida interaction and fertilization. Because of the apparent similarity of these two proteins and the inconsistent use of alternative names previously, we provide an overview of the systematic classification of DCXR and Cbr2 and a phylogenetic analysis to illustrate their ancestry.