Phylogeny of cardinalfishes (Teleostei: Gobiiformes: Apogonidae) and the evolution of visceral bioluminescence

The cardinalfishes (Apogonidae) are a diverse clade of small, mostly reef-dwelling fishes, for which a variety of morphological data have not yielded a consistent phylogeny. We use DNA sequence to hypothesize phylogenetic relationships within Apogonidae and among apogonids and other acanthomorph families, to examine patterns of evolution including the distribution of a visceral bioluminescence system. In conformance with previous studies, Apogonidae is placed in a clade with Pempheridae, Kurtidae, Leiognathidae, and Gobioidei. The apogonid genus Pseudamia is recovered outside the remainder of the family, not as sister to the superficially similar genus Gymnapogon. Species sampled from the Caribbean and Western Atlantic (Phaeoptyx, Astrapogon, and some Apogon species) form a clade, as do the larger-bodied Glossamia and Cheilodipterus. Incidence of visceral bioluminescence is found scattered throughout the phylogeny, independently for each group in which it is present. Examination of the fine structure of the visceral bioluminescence system through histology shows that light organs exhibit a range of morphologies, with some composed of complex masses of tubules (Siphamia, Pempheris, Parapriacanthus) and others lacking tubules but containing chambers formed by folds of the visceral epithelium (Acropoma, Archamia, Jaydia, and Rhabdamia). Light organs in Siphamia, Acropoma, Pempheris and Parapriacanthus are distinct from but connected to the gut; those in Archamia, Jaydia, and Rhabdamia are simply portions of the intestinal tract, and are little differentiated from the surrounding tissues. The presence or absence of symbiotic luminescent bacteria does not correlate with light organ structure; the tubular light organs of Siphamia and chambered tubes of Acropoma house bacteria, those in Pempheridae and the other Apogonidae do not.     

荧光转基因斑马鱼Tg(ttn.2:EGFP)的构建

为了建立一种用于研究肌肉和心脏发育及其相关疾病的绿色荧光蛋白(enhanced green fluorescent protein,EGFP)转基因斑马鱼品系,本研究使用斑马鱼ttn.2基因编码区上游启动子序列和绿色荧光蛋白基因编码序列构建了重组表达载体,并将该载体和Tol2转座酶的加帽mRNA显微共注射入斑马鱼1-细胞期胚胎,通过荧光检测、遗传杂交筛选和分子鉴定等方法,成功建立了能稳定遗传的Tg(ttn.2:EGFP)转基因斑马鱼品系。荧光表达分析及原位杂交分析结果表明,绿色荧光信号在斑马鱼肌肉和心脏组织中特异表达模式与ttn.2基因的mRNA表达一致。通过反向PCR鉴定转基因表达载体在F1代斑马鱼品系中的随机整合位点,结果表明:No.33转基因品系的EGFP基因整合在斑马鱼的4号和11号染色体上,No.34转基因品系则整合在1号染色体上。该荧光转基因斑马鱼品系Tg(ttn.2:EGFP)的成功构建为肌肉和心脏发育以及相关疾病研究提供了一个新的理想实验模型。此外,绿色荧光强烈表达的斑马鱼品系还可以作为一种新的观赏鱼。     

IP3 signaling is required for cilia formation and left-right body axis determination in Xenopus embryos

Vertebrate left–right (LR) body axis is manifested as an asymmetrical alignment of the internal organs such as the heart and the gut. It has been proposed that the process of LR determination commonly involves a cilia-driven leftward flow in the mammalian node and its equivalents (Kupffer’s vesicle in zebrafish and the gastrocoel roof plate in Xenopus). Recently, it was reported that Ca²⁺ flux regulates Kupffer’s vesicle development and is required for LR determination. As a basis of Ca²⁺ flux in many cell types, inositol 1,4,5-trisphosphate (IP₃) receptor-mediated calcium release from the endoplasmic reticulum (ER) plays important roles. However, its involvement in LR determination is poorly understood. We investigated the role of IP₃ signaling in LR determination in Xenopus embryos. Microinjection of an IP₃ receptor-function blocking antibody that can inhibit IP₃ calcium channel activity randomized the LR axis in terms of left-sided Pitx2 expression and organ laterality. In addition, an IP₃ sponge that could inhibit IP₃ signaling by binding IP₃ more strongly than the IP₃ receptor impaired LR determination. Examination of the gastrocoel roof plate revealed that the number of cilia was significantly reduced by IP₃ signal blocking. These results provide evidence that IP₃ signaling is involved in LR asymmetry formation in vertebrates.     

一株牙鲆源黏质沙雷氏菌YP1的分离鉴定及致病性分析

黏质沙雷氏菌(Serratia marcescens)是引起人类、动物及植物感染的重要条件致病菌,但其作为鱼类致病菌却鲜有报道。【目的】本研究以从患病牙鲆(Paralichthys olivaceus)病灶处分离的一株黏质沙雷氏菌YP1为研究对象,分析黏质沙雷氏菌对鱼类的致病性及对疾控的影响。【方法】利用形态学、分子生物学及生理生化实验综合鉴定菌株YP1;利用菌株YP1进行人工感染实验、组织病理实验及药敏试验,研究其感染症状、组织病理学、毒力和药物敏感性。【结果】分离自患病牙鲆体表溃疡病灶处的菌株YP1鉴定为黏质沙雷氏菌。感染实验结果显示,牙鲆和斑马鱼的半数致死量(LD₅₀)分别为3.44×10⁷CFU/g和6.28×10⁵CFU/g,除牙鲆外菌株YP1对其他鱼类也具有高致病性;菌株YP1主要导致牙鲆腹水,同时伴有呼吸急促、摄食减弱、脱肛、白便、鳃缺血及多脏器膨大出血等症状,并随着感染时间的延长对脏器损伤呈加重趋势。病理组织切片结果显示,菌株YP1对牙鲆鳃、肠、肝、脾、肾、心均造成损伤。药敏试验结果表明,YP1对左氧氟沙星、诺氟沙星等14种药物敏感;但对氨苄西林、头孢拉定等19种药物具有耐药性。【结论】本研究结果证实了黏质沙雷氏菌是能导致牙鲆腹水病的一种病原菌,同时对其他鱼类也具高致病性,为该菌感染鱼类导致疾病的检测、鉴别和防治提供科学依据。     

Shh and Gli3 regulate formation of the telencephalic-diencephalic junction and suppress an isthmus-like signaling source in the forebrain

In human holoprosencephaly (HPE), the forebrain does not separate fully into two hemispheres. Further, the border between the telencephalon and diencephalon, the telencephalic/diencephalic junction (TDJ), is often indistinct, and the ventricular system can be blocked at the third ventricle, creating a forebrain ‘holosphere’. Mice deficient in Sonic Hedgehog (Shh) have previously been described to show HPE and associated cyclopia. Here we report that the third ventricle is blocked in Shh null mutants, similar to human HPE, and that characteristic telencephalic and diencephalic signaling centers, the cortical hem and zona limitans intrathalamica (ZLI), are merged, obliterating the TDJ. The resulting forebrain holosphere comprises Foxg1-positive telencephalic- and Foxg1-negative diencephalic territories. Loss of one functional copy of Gli3 in Shh nulls rescues ventricular collapse and substantially restores the TDJ. Characteristic regional gene expression patterns are rescued on the telencephalic side of the TDJ but not in the diencephalon.Further analysis of compound Shh;Gli3 mutants revealed an unexpected type of signaling center deregulation. In Shh;Gli3 mutants, adjacent rings of Fgf8 and Wnt3a expression are induced in the diencephalon at the ZLI, reminiscent of the Fgf8/Wnt1-expressing isthmic organizer. Neither Shh nor Gli3 single mutants show this forebrain double ring of Fgf/Wnt expression; thus both Shh and Gli3 are independently required to suppress it. Adjacent tissue is not respecified to a midbrain/hindbrain fate, but shows overgrowth, consistent with ectopic mitogen expression.Our observations indicate that the separation of the telencephalon and diencephalon depends on interactions between Shh and Gli3, and, moreover, demonstrate that both Shh and Gli3 suppress a potential Fgf/Wnt signaling source in the forebrain. That optional signaling centers are actively repressed in normal development is a striking new insight into the processes of vertebrate brain development.     

Expression of Zkrml2, a homologue of the Krml1/val segmentation gene, during embryonic patterning of the zebrafish (Danio rerio)

We have identified Zkrml2, a novel homologue of the segmentation gene Krml/val in zebrafish (Danio rerio). Zkrml2 shows 72% and 92% identity in its basic leucine zipper domain with mouse Krml1 and zebrafish val, respectively. Zkrml2 is expressed coincident with MyoD throughout the somites starting at the three somite stage, becomes restricted to the dermomyotome, and subsequently disappears. Transient expression is also detected in the reticulospinal and oculomotor neurons. Zkrml2 maps to the Oregon linkage group 11 (Boston Linkage group 14) with no mapped zebrafish mutations nearby.     

Shh signalling restricts the expression of Gcm2 and controls the position of the developing parathyroids

The parathyroid glands originate from the endoderm of the caudal pharyngeal pouches. How these parathyroids are restricted to developing in the caudal pouches is unclear. In this paper we investigate the role of Shh signalling in patterning the vertebrate pharyngeal pouches, and show that Hh signalling may be involved in restricting the expression of the parathyroid marker Gcm2 in the pharyngeal epithelium. In the chick and mouse, Shh signalling is excluded or highly reduced in the posterior/caudal pouches, where the parathyroid marker Gcm2 is expressed, while remaining at high levels in the more anterior pouches. Moreover, though the block of Shh signalling at early developmental stages results in the loss of chick Gcm2 expression, at later stages, it induces ectopic Gcm2 expression domains in the second and first pharyngeal epithelium, suggesting that HH signalling prevents Gcm2 in those tissues. These ectopic domains go on to express other parathyroid markers but do not migrate and develop into ectopic parathyroids. Differences in the expression of Gcm2 in the chick, mouse and zebrafish, correlate with changing patterns of Shh signalling, indicating a conserved regulatory mechanism that acts to define pouch derivatives.     

Two novel type II receptors mediate BMP signalling and are required to establish left-right asymmetry in zebrafish

Ligands of the transforming growth factor β (TGFβ) superfamily, like Nodal and bone morphogenetic protein (BMP), are pivotal to establish left-right (LR) asymmetry in vertebrates. However, the receptors mediating this process are unknown. Here we identified two new type II receptors for BMPs in zebrafish termed bmpr2a and bmpr2b that induce a classical Smad1/5/8 response to BMP binding. Morpholino-mediated knockdown of bmpr2a and bmpr2b showed that they are required for the establishment of concomitant cardiac and visceral LR asymmetry. Expression of early laterality markers in morphants indicated that bmpr2a and bmpr2b act upstream of pitx2 and the nodal-related southpaw (spaw), which are expressed asymmetrically in the lateral plate mesoderm (LPM), and subsequently regulate lefty2 and bmp4 in the left heart field. We demonstrated that bmpr2a is required for lefty1 expression in the midline at early segmentation while bmpr2a/bmpr2b heteromers mediate left-sided spaw expression in the LPM. We propose a mechanism whereby this differential interpretation of BMP signalling through bmpr2a and bmpr2b is essential for the establishment of LR asymmetry in the zebrafish embryo.     

Fgf4 is required for left-right patterning of visceral organs in zebrafish

Fgf signaling plays essential roles in many developmental events. To investigate the roles of Fgf4 signaling in zebrafish development, we generated Fgf4 knockdown embryos by injection with Fgf4 antisense morpholino oligonucleotides. Randomized LR patterning of visceral organs including the liver, pancreas, and heart was observed in the knockdown embryos. Prominent expression of Fgf4 was observed in the posterior notochord and Kupffer's vesicle region in the early stages of segmentation. Lefty1, lefty2, southpaw, and pitx2 are known to play crucial roles in LR patterning of visceral organs. Fgf4 was essential for the expression of lefty1, which is necessary for the asymmetric expression of southpaw and pitx2 in the lateral plate mesoderm, in the posterior notochord, and the expression of lefty2 and lefty1 in the left cardiac field. Fgf8 is also known to be crucial for the formation of Kupffer's vesicle, which is needed for the LR patterning of visceral organs. In contrast, Fgf4 was required for the formation of cilia in Kupffer's vesicle, indicating that the role of Fgf4 in the LR patterning is quite distinct from that of Fgf8. The present findings indicate that Fgf4 plays a unique role in the LR patterning of visceral organs in zebrafish.     

拟南芥bso-1突变体的基因定位及表型分析

通过EMS化学诱变在拟南芥Columbia(Col-0)野生型突变体库中筛选获得1株器官显著增大的突变体,命名为big size organ1(bso-1)。遗传分析表明,bso-1受单个隐性核基因控制。表型观察发现,突变体植株的幼苗、花、果荚及种子与野生型相比都表现出明显的增大。组织切片结果显示,突变体种子的增大主要由胚细胞个体增大导致胚体积增大而实现,因此突变体种子的重量也较野生型有明显增加。利用图位克隆方法将相关基因初步定位在4号染色体上SSLP标记T5L19与F28M11之间58kb区间内,生物信息学分析显示此区间内未见调控植物器官大小发育相关的已知基因的报道。该研究结果为进一步克隆bso-1突变体相关基因及探讨其在控制植物器官发育尤其是种子发育过程中的作用奠定了基础。     

竹亚科单枝竹属芸香竹花枝和花特征补充描述

繁殖器官在竹类植物的分类学研究中具有重要意义,研究组在广西马山县观察到竹亚科单枝竹属芸香竹正在开花,该文根据观察到的开花状况和采集到的标本解剖观察结果,对其花枝和繁殖器官特征做了详细的中文及拉丁文补充描述。经对比芸香竹与属内已知繁殖器官结构的单枝竹和小花单枝竹的繁殖器官,3个竹种有相同的繁殖器官结构特征,但在小花数目和大小等方面具有差异。繁殖器官比较表明该属竹种的繁殖器官对喀斯特地貌环境有特殊的适应性,也支持依据营养器官差异划分为3个独立竹种。     

Specific expression of the Drosophila midline-jumper retro-transposon in embryonic CNS midline cells

Here we describe of a novel Drosophila LTR-type retrotransposon that is expressed in the embryonic CNS midline glia and in the embryonic germ cells. The element is related to the gypsy and burdock retrotransposons and was termed midline-jumper. In addition to cDNA clones generated from internal retrotransposon sequences, we have identified one cDNA clone that appears to reflect a transposition event, indicating that the midline-jumper retrotransposon is not only transcribed but also able to transpose during Drosophila development.     

Flrt2 and Flrt3 have overlapping and non-overlapping expression during craniofacial development

Craniofacial morphogenesis is a complex multi-step process that involves numerous biological processes to coordinate the growth, proliferation, migration, and subsequent differentiation of the cranial neural crest cells. Members of the Fibronectin Leucine-Rich Transmembrane (Flrt) gene family have been previously reported to be widely expressed in the developing embryo. We mapped the expression of Flrt2 and Flrt3 at critical stages of craniofacial development and found that, during early craniofacial development, Flrt2 was highly expressed initially in the cranial neural crest cells and Flrt3 in the midbrain. Later both genes were expressed in the developing pharyngeal region. Flrt2 expression predominated in the neural crest-derived mesenchyme in the medial aspect of the developing frontonasal region in close relationships with the expression of Fgfr2, Shh, and Msx1, three genes shown previously to play critical roles in craniofacial development. Flrt2 was also present in the vomero-nasal organ, mandibular primodia, and the posterior aspects of the unfused and fused secondary palatal shelves. Flrt3, however, had a more restrictive expression, being present in the mesenchyme underlying the ectoderm of the medial nasal process and in the mandibular primordium and in regions undergoing outgrowth, in a pattern that overlapped with Bmp4 expression. Both Flrt2 and Flrt3 were later found to be present at sites of epithelial–mesenchymal interactions such as the developing tooth buds, hair follicles, and eye. Together the data suggested important roles for Flrt2 and Flrt3 in mediating events such as NCC migration, chondrogenesis and epithelial–mesenchymal interactions during craniofacial development.     

入侵植物香丝草水浸提液对蚕豆和玉米根尖染色体行为的影响

以采自农田中自然生长的植物群落中的香丝草为供体,以典型的双子叶植物蚕豆和典型的单子叶植物玉米的幼苗为受体,运用根尖微核试验和染色体畸变试验,研究了香丝草的根、茎、叶和幼果4种器官水浸提液对受体的遗传毒性。结果表明:(1)在香丝草不同器官水浸提液作用下,蚕豆和玉米根尖细胞的有丝分裂各时期均受到明显影响,细胞中出现了微核、染色体桥、染色体断片、染色体环、染色体粘连及染色体滞后等多种染色体畸变。(2)香丝草各器官水浸提液对蚕豆幼苗根尖细胞分裂的抑制作用明显大于玉米。(3)香丝草各器官水浸提液对蚕豆和玉米幼苗根尖的染色体畸变诱导存在显著的浓度效应,即水浸提液浓度越高,受体的微核率和畸变率越高,相应的有丝分裂指数越低,水浸提液的诱导作用与浓度呈正相关关系,但不是简单的加和作用。(4)香丝草各器官水浸提液均具有较强的遗传毒性,但整体化感效应表现为叶＞幼果＞茎＞根,即叶片产生的化感作用最强。因此,香丝草分泌的化感物质可能通过对受体植物生长点的细胞有丝分裂和细胞形态产生影响,造成受体植物染色体的多种畸变和不可逆的遗传损伤,从而成功入侵新的栖息地。     

Molecular and morphological characterization of Leveillula (Ascomycota: Erysiphales) on monocotyledonous plants

Leveillula on monocotyledonous plants have been recorded as L. taurica by several authors, whereas the fungus on Allium has been described as an independent species, namely L. allii, by some authors. We sequenced ca 600 bp of the rDNA ITS region for two Leveillula specimens from Allium and Polianthes (both from monocotyledons) and compared them with several already published sequences from Leveillula isolates from dicotyledons. Pair-wise percentages of sequence divergences were calculated for all Leveillula isolates. The ITS sequence of the Polianthes isolate was identical to L. taurica on Helianthus and Vicia. The sequence of the Allium isolate was 99.5 % identical to L. taurica on Euphorbia, Haplophylum, Peganum, etc. These results suggest close relationships between monocot and dicot pathogenic Leveillula species. The identity between two monocot isolates was 98.4 %. Phylogenetic analysis revealed that the two monocot isolates do not group into a clade together. This result suggests that Leveillula acquired parasitism to monocots at least twice independently.     

Fusion of circular and longitudinal muscles in Drosophila is independent of the endoderm but further visceral muscle differentiation requires a close contact between mesoderm and endoderm

In this study we describe the morphological and genetic analysis of the Drosophila mutant gürtelchen (gurt). gurt was identified by screening an EMS collection for novel mutations affecting visceral mesoderm development and was named after the distinct belt shaped visceral phenotype. Interestingly, determination of visceral cell identities and subsequent visceral myoblast fusion is not affected in mutant embryos indicating a later defect in visceral development. gurt is in fact a new huckebein (hkb) allele and as such exhibits nearly complete loss of endodermal derived structures. Targeted ablation of the endodermal primordia produces a phenotype that resembles the visceral defects observed in huckebein^gürtelchen (hkb^gurt) mutant embryos.It was shown previously that visceral mesoderm development requires complex interactions between visceral myoblasts and adjacent tissues. Signals from the neighbouring somatic myoblasts play an important role in cell type determination and are a prerequisite for visceral muscle fusion. Furthermore, the visceral mesoderm is known to influence endodermal migration and midgut epithelium formation. Our analyses of the visceral phenotype of hkb^gurt mutant embryos reveal that the adjacent endoderm plays a critical role in the later stages of visceral muscle development, and is required for visceral muscle elongation and outgrowth after proper myoblast fusion.     

Geminin is required for left-right patterning through regulating Kupffer's vesicle formation and ciliogenesis in zebrafish

Geminin plays an important role in coordinating the cell cycle with anterior–posterior patterning during embryonic development. However, whether it is involved in the regulation of left–right (LR) patterning remains unknown. Here, we reported that geminin is required for setting up heart and visceral laterality during zebrafish development. Defective heart and visceral laterality was observed in geminin morphants. Further study demonstrated that the left-sided nodal/spaw in the lateral plate mesoderm (LPM) as well as the sideness of its downstream targets lefty2 and lefty1 was perturbed in geminin morphants. Upstream of the left-sided Nodal signal along the regulatory cascade of LR asymmetry, knock down of geminin resulted in defective Kupffer’s vesicle (KV) formation and ciliogenesis rather than middle line defects. Predominant distribution of an antisense morpholino against geminin in dorsal forerunner cells (DFCs) led to defective KV morphogenesis and perturbed LR asymmetry, similar to those of geminin morphants, indicating a cell-autonomous role of geminin in regulating KV formation and ciliogenesis. Our results demonstrate that geminin is required for proper KV formation and ciliogenesis, thus playing an important part in setting up LR asymmetry.