水生生物学报
水生生物學報
수생생물학보
ACTA HYDROBIOLOGICA SINICA
2010年
2期
293-301
,共9页
可小丽%汪建国%顾泽茂%李明%龚小宁
可小麗%汪建國%顧澤茂%李明%龔小寧
가소려%왕건국%고택무%리명%공소저
卵菌纲%水霉%分类%ITS%rDNA%系统发育
卵菌綱%水黴%分類%ITS%rDNA%繫統髮育
란균강%수매%분류%ITS%rDNA%계통발육
Oomycetes%Saprolegnia%Taxonomy%ITS rDNA%Phylogenetics
研究利用形态学和分子生物学相结合的方法,对从患病黄颡鱼病灶处分离的水霉菌株(HSY)的分类地位进行了研究.结果显示,该菌在18-23℃均能形成游动孢子囊,但只在20℃才大量释放游动孢子;在15℃培养约3周出现大量的藏卵器,多数顶生,形态与Saprolegnia litoralis和Saprolegnia ferax的均非常相似.序列比对分析显示,HSY菌株与S.litoralis、S.bulbosa、S.oliviae、S.longicaulis、S.ferax、S.mixta和S.anomalies的ITS区(包括5.8S rDNA)序列相似性均高于99%.系统发育分析显示,所选的真菌分为3个群,HSY落于第一个群,MP树显示HSY菌株与S.litoralis、S.bulbosa、S.oliviae、S.longicaulis、S.ferax以及S.mixta枝系均互相平行,而NJ树显示其与S.ferax和S.mixta更近.综合形态学、ITS区序列及系统发育分析.将HSY菌株暂定为多子水霉(Saprolegnia ferax).
研究利用形態學和分子生物學相結閤的方法,對從患病黃顙魚病竈處分離的水黴菌株(HSY)的分類地位進行瞭研究.結果顯示,該菌在18-23℃均能形成遊動孢子囊,但隻在20℃纔大量釋放遊動孢子;在15℃培養約3週齣現大量的藏卵器,多數頂生,形態與Saprolegnia litoralis和Saprolegnia ferax的均非常相似.序列比對分析顯示,HSY菌株與S.litoralis、S.bulbosa、S.oliviae、S.longicaulis、S.ferax、S.mixta和S.anomalies的ITS區(包括5.8S rDNA)序列相似性均高于99%.繫統髮育分析顯示,所選的真菌分為3箇群,HSY落于第一箇群,MP樹顯示HSY菌株與S.litoralis、S.bulbosa、S.oliviae、S.longicaulis、S.ferax以及S.mixta枝繫均互相平行,而NJ樹顯示其與S.ferax和S.mixta更近.綜閤形態學、ITS區序列及繫統髮育分析.將HSY菌株暫定為多子水黴(Saprolegnia ferax).
연구이용형태학화분자생물학상결합적방법,대종환병황상어병조처분리적수매균주(HSY)적분류지위진행료연구.결과현시,해균재18-23℃균능형성유동포자낭,단지재20℃재대량석방유동포자;재15℃배양약3주출현대량적장란기,다수정생,형태여Saprolegnia litoralis화Saprolegnia ferax적균비상상사.서렬비대분석현시,HSY균주여S.litoralis、S.bulbosa、S.oliviae、S.longicaulis、S.ferax、S.mixta화S.anomalies적ITS구(포괄5.8S rDNA)서렬상사성균고우99%.계통발육분석현시,소선적진균분위3개군,HSY락우제일개군,MP수현시HSY균주여S.litoralis、S.bulbosa、S.oliviae、S.longicaulis、S.ferax이급S.mixta지계균호상평행,이NJ수현시기여S.ferax화S.mixta경근.종합형태학、ITS구서렬급계통발육분석.장HSY균주잠정위다자수매(Saprolegnia ferax).
Abstraet Saprolegnia is one of the main genus of water molds responsible for fungal infections of freshwater fish and their eggs. These infections are usually termed "saprolegniasis", which can cause severe losses of freshwater fish in both nature and commercial fish farms. However, identification of the causative agent is often unmanageable, especially to those isolated from fish lesions. Traditionally, the generic definition was mainly based on the asexual characters, especially the mode of zoospores discharge, and species differentiation was mainly on the features of sexual reproductive organs including oogonia, antheridia, antheridial origin and oospore. However, many of these characters may be variable in one species or similar in different species and some strains either lose the ability to produce sexual reproduction or cannot be induced to form them under laboratory conditions. So, it is difficult to make definitive identification only using traditional morphological criteria in species level.In this study, we identified one saprolegnia isolate HSY obtained from yellow catfish (Pelteobagrus fulvidraco) based on the morphological and molecular characteristics. Results showed Isolate HSY grew luxuriantly on hemp seeds in water at 18-23℃ and were measured 1.5-4.0cm in diameter. The hyphae were stout, sparingly branched and measured between 20-58μm in diameter. Zoosporangia had formed abundantly and were often fusiform, clavate,straight or bent, lateral or terminal and renewed internally, measured 110-490×25-62μm. Primary zoospore discharge was typically saprolegnoid, pyriform; secondary zoospores emerged from the encysted, reniform; encysted zoospores were globose and measured 9-12μm in diameter. Oogonia were formed abundantly within three weeks at 15℃,not 18℃ and 23℃, mainly terminal, rarely lateral, and measured 75-108μm in diameter. Oogonial walls were sooth,and stalks were stout and bent. The attachment of antheridial cells was moderate (mainly androgynous and monoclinous,rarely diclinous). The oosproes were centric or subcentric, 3-25 per oogonium, and meansured 18-30μm. These morphological were very similar to S. litoralis and S. ferax.Comparing 744 base pairs of internal transcribed spacer (ITS) region and the 5.8S rDNA, we found a group of currently identified saprolegnia species including S. litoralis and S. ferax shared an almost identical ITS sequence (above 99% similarity) with that of isolate HSY. Then, thirty-nine available sequences for representative Saprolegnia spp. formed three phylogenetically separate clades. Isolate HSY fell into clade I which also comprised a group of isolates showing high similarities among ITS sequences but different in their morphological features. Moreover, both NJ and MP tree showed that almost all these species in clade I were parallel to each other. These suggested the isolates in clade I might be the same or closely related phylogenntic species and showed how unsatisfactory oogonium morphology appeared to be as a predictor of genetic relatedness.Consequently, in our opinions, HSY should be identified as S. ferax because S. litoralis and S. ferax could not be differentiated only by morphology; secondly, S. ferax was the first named one which has the similar sexual organs with isolate HSY; finally, the similarity of the ITS regions of S. ferax and HSY was above 99%. Meanwhile, the present resuits evidently suggested that Saprlegnia classification only based on sexual organs were likely to lead to artificial species. Many species once identified as different might be just one thing in fact.