BACTERIAL LYSIS OF AUREOCOCCUS ANOPHAGEFFERENS CCMP 1784 (PELAGOPHYCEAE)1

Water samples from Great South Bay, New York, contained biological agents capable of causing the lysis of the brown‐tide alga Aureococcus anophagefferens Hargraves et Sieburth. From these water samples, 32 bacterial isolates were tested for algicidal effects against the algae. Six of the isolates were shown to have algicidal effects against A. anophagefferens. Sequencing of the gene 16S rRNA revealed that the isolates were relatively diverse. Based on their similarity to sequences in repositories, the isolates seem to be closely related to Bacillus, Halomonas, Croceibacter atlanticus, Marinobacter, and an Arctic deep‐sea bacterium.     

DESCRIPTION AND CHARACTERIZATION OF THE ALGAL SPECIES AUREOUMBRA LAGUNENSIS GEN. ET SP. NOV. AND REFERRAL OF AUREOUMBRA AND AUREOCOCCUS TO THE PELAGOPHYCEAE1

The Texas brown tide alga (strain TBA-2) is described as Aureoumbra lagunensis Stockwell, DeYoe, Hargraves, et Johnson, gen. et sp. nov. Pigment composition, chloroplast structure, and 18s ribosomal RNA gene sequence data indicate that A. lagunensis and the east coast brown tide alga Aureococcus anophagefferens (originally placed in the Chrysophyceae) belong in the class Pelagophyceae. The new genus Aureoumbra with A. lagunensis as the type species differs from Aureococcus in 18s ribosomal RNA gene sequence, pyrenoid form, nitrogen physiology, and possession of basal bodies. The genus Aureococcus is placed in the order Pelagomonadates and family Pelagomonadaceae while ordinal placement of Aureoumbra is deferred.     

PHYSIOLOGICAL RESPONSES DURING DARK SURVIVAL AND RECOVERY IN AUREOCOCCUS ANOPHAGEFFERENS (PELAGOPHYCEAE)1

The harmful bloom alga Aureococcus anophagefferens Hargraves et Sieburth can survive prolonged darkness, which could facilitate overwinter survival and dispersal by anthropogenic vectors such as ballast water. Experiments were conducted to examine the biochemical and photosynthetic changes in cells during dark storage. Cells were stored in the dark for periods from 2 to 14 days and were sampled at days 0, 1, 2, 4, 7, 10, and 14. Samples from days 2, 7, and 14 were monitored during a recovery period of 4–5 days. Physiological and photosynthetic parameters were measured during the dark storage and recovery periods. Cultures resumed growth quickly when returned to light, and bacterial counts remained constant during the dark storage period but increased rapidly during recovery periods. Cellular protein, carbohydrate, and lipid concentrations declined slightly during the dark period. There were no changes in chl a per cell or in RUBISCO per cell during 14 days of darkness. The data therefore suggest that A. anophagefferens is able to maintain its photosynthetic apparatus during dark storage periods of at least 2 weeks and relies on cellular reserves until it is returned to light to resume photosynthesis. During the recovery period in the light, the cells are able to acclimate rapidly to current light levels and resume growth.     

Tracing Patterns of Chloroplast Evolution in Euglenoids: Contributions from Colacium vesiculosum and Strombomonas acuminata (Euglenophyta)

The chloroplast genomes of two photosynthetic euglenoids, Colacium vesiculosum Ehrenberg (128,889 bp), and Strombomonas acuminata (Schmarda) Deflandre (144,167 bp) have been sequenced. These chloroplast genomes in combination with those of Euglena gracilis, Eutreptia viridis, and Eutreptiella gymnastica provide a snapshot of euglenoid chloroplast evolution allowing comparisons of gene content, arrangement, and expansion. The gene content of the five chloroplast genomes is very similar varying only in the presence or absence of, rrn5, roaA, psaI, psaM, rpoA, and two tRNAs. Large gene rearrangements have occurred within the C. vesiculosum and S. acuminata chloroplast genomes. Most of these rearrangements represent repositioning of entire operons rather than single genes. When compared with previously sequenced genomes, C. vesiculosum and S. acuminata chloroplast genomes more closely resemble the E. gracilis chloroplast genome in size of the genome, number of introns, and gene order than they do those of the Eutreptiales. Overall, the chloroplast genomes of these five species show an evolutionary trend toward increased intron number, a decrease in gene density, and substantial rearrangement of gene clusters.     

THE INABILITY OF THE TEXAS “BROWN TIDE” ALGA TO USE NITRATE AND THE ROLE OF NITROGEN IN THE INITIATION OF A PERSISTENT BLOOM OF THIS ORGANISM1

A planktonic alga similar in general morphology and pigments to Aureococcus anophagefferens Hargraves and Sieburth has caused persistent and ecologically damaging blooms along the south Texas coast. Experiments using 100 μM NO₃^?, NO₂^?, and NH₄⁺ demonstrated that the alga could not use NO₃^? for growth but could use NO₂^? and NH₄⁺. Doubling iron or trace metal concentrations did not permit growth on NO₃^?. Chemical composition data for cultures grown in excess NO₃^? or NH₄⁺, respectively, were as follows: N·cell^?1 (0.88 vs. 1.3 pg), C:N ratio (25:1 vs. 6.4:1), C:chlorophyll a (chl a) (560:1 vs. 44:1), and chl a·cell^?1 (0.033 vs. 0.16 pg). These data imply that cells supplied with NO₃^? were N-starved. Culture addition of 10 mM final concentration chlorate (a nitrate analog) did not affect the Texas isolate while NO₃^? utilizing A. anophagefferens was lysed, suggesting that the NO₃^? reductase of the Texas isolate is nonfunctional. Rates of primary productivity determined during a dense bloom indicated that light-saturated growth rates were ca. 0.45 d^?1, which is similar to maximum rates determined in laboratory experiments (0.58 d^?1± 0.16). However, chemical composition data were consistent with the growth rate of these cells being limited by N availability (C:N 28, C:chl a 176, chl a·cell^?1 0.019). Calculations based on a mass balance for nitrogen suggest that the bloom was triggered by an input of ca. 69 μM NH₄⁺ that resulted from an extensive die-off of benthos and fish.     

Complete Chloroplast Genome Sequence of <Emphasis Type="Italic">Glycine max</Emphasis> and Comparative Analyses with other Legume Genomes

Lack of complete chloroplast genome sequences is still one of the major limitations to extending chloroplast genetic engineering technology to useful crops. Therefore, we sequenced the soybean chloroplast genome and compared it to the other completely sequenced legumes, Lotus and Medicago. The chloroplast genome of Glycine is 152,218 basepairs (bp) in length, including a pair of inverted repeats of 25,574 bp of identical sequence separated by a small single copy region of 17,895 bp and a large single copy region of 83,175 bp. The genome contains 111 unique genes, and 19 of these are duplicated in the inverted repeat (IR). Comparisons of Glycine, Lotus and Medicago confirm the organization of legume chloroplast genomes based on previous studies. Gene content of the three legumes is nearly identical. The rpl22 gene is missing from all three legumes, and Medicago is missing rps16 and one copy of the IR. Gene order in Glycine, Lotus, and Medicago differs from the usual gene order for angiosperm chloroplast genomes by the presence of a single, large inversion of 51 kilobases (kb). Detailed analyses of repeated sequences indicate that many of the Glycine repeats that are located in the intergenic spacer regions and introns occur in the same location in the other legumes and in Arabidopsis, suggesting that they may play some functional role. The presence of small repeats of psbA and rbcL in legumes that have lost one copy of the IR indicate that this loss has only occurred once during the evolutionary history of legumes.     

桃叶珊瑚属植物的叶绿体基因组结构特征及系统发育分析

为确定桃叶珊瑚属(Aucuba)植物叶绿体基因组的结构及其序列变异,揭示其属下种间亲缘关系,该研究对桃叶珊瑚(A. chinensis)、花叶青木(A. japonica var. variegata)等6种桃叶珊瑚属植物和丝缨花属植物黄杨叶丝缨花(Garrya buxifolia)进行二代测序,利用生物信息学软件对其叶绿体基因组序列进行组装和注释,并进行基本特征分析、序列比较以及系统发育分析。结果表明:(1)桃叶珊瑚属植物叶绿体基因组具典型的环状四分体结构,6条序列全长157 891～158 325 bp,均编码114个基因,包括80个蛋白质编码基因、30个tRNA基因和4个rRNA基因。(2)6种植物叶绿体基因组高频密码子数均为29个,偏好以A/U结尾,确定了这6条序列的最优密码子共100个,包含12个共有的最优密码子。(3)6条叶绿体基因组序列共检测到270条散在重复序列,133条串联重复序列以及412个SSR位点。(4)比较基因组学分析结果表明,该属植物叶绿体基因组序列高度保守。(5)从叶绿体基因组中筛选出10个高变片段。(6)系统发育分析结果显示支持桃叶珊瑚属为一个支持率较高的单系,与丝缨花属关系较近。该研究中的5种桃叶珊瑚属植物以及1种丝缨花属植物的叶绿体基因组均为首次测序组装,揭示了桃叶珊瑚属及其属下种间的系统发育关系,为桃叶珊瑚属植物的分类鉴定和系统发育提供了参考资料。     

Extensive Rearrangements in the Chloroplast Genome of <Emphasis Type="Italic">Trachelium caeruleum</Emphasis> Are Associated with Repeats and tRNA Genes

Chloroplast genome organization, gene order, and content are highly conserved among land plants. We sequenced the chloroplast genome of Trachelium caeruleum L. (Campanulaceae), a member of an angiosperm family known for highly rearranged genomes. The total genome size is 162,321 bp, with an inverted repeat (IR) of 27,273 bp, large single-copy (LSC) region of 100,114 bp, and small single-copy (SSC) region of 7,661 bp. The genome encodes 112 different genes, with 17 duplicated in the IR, a tRNA gene (trnI-cau) duplicated once in the LSC region, and a protein-coding gene (psbJ) with two duplicate copies, for a total of 132 putatively intact genes. ndhK may be a pseudogene with internal stop codons, and clpP, ycf1, and ycf2 are so highly diverged that they also may be pseudogenes. ycf15, rpl23, infA, and accD are truncated and likely nonfunctional. The most conspicuous feature of the Trachelium genome is the presence of 18 internally unrearranged blocks of genes inverted or relocated within the genome relative to the ancestral gene order of angiosperm chloroplast genomes. Recombination between repeats or tRNA genes has been suggested as a mechanism of chloroplast genome rearrangements. The Trachelium chloroplast genome shares with Pelargonium and Jasminum both a higher number of repeats and larger repeated sequences in comparison to eight other angiosperm chloroplast genomes, and these are concentrated near rearrangement endpoints. Genes for tRNAs occur at many but not all inversion endpoints, so some combination of repeats and tRNA genes may have mediated these rearrangements.     

Organic and inorganic nutrient effects on growth rate–irradiance relationships in the Texas brown‐tide alga Aureoumbra lagunensis (Pelagophyceae)1

Pelagophyte species in the genera Aureococcus and Auroumbra form brown tides in coastal bays that cause food‐web disruption and extensive shading of benthic primary producers. Organic nutrients have been suggested as key factors in the origination and persistence of the East Coast (USA) brown‐tide alga Aureococcus anophagefferens Hargraves et Sieburth. To evaluate this finding for the Texas brown‐tide alga Aureoumbra lagunensis D. A. Stockw., DeYoe, Hargraves et P. W. Johnson, we grew strain TBA‐2 with dissolved inorganic nitrogen (DIN; or ) or dissolved organic nitrogen (DON; urea or glutamate) as the nitrogen (N) source under eight light intensities. Maximum growth rates decreased with N source from (1.0 div · d^?1) to (0.48 div · d^?1). Neither growth rate efficiency (α) nor I_k varied significantly between N treatments. Both inorganic phosphorus (P) and β‐glycerophosphate supported growth. Aureoumbra lagunensis can utilize at least some forms of organic N and P and can use them to persist or grow when inorganic forms become limiting. We found no evidence to support the hypothesis that organic utilization enhances or supplements growth at low light levels.     

ISOLATION OF A NON‐PHAGE‐LIKE LYTIC VIRUS INFECTING AUREOCOCCUS ANOPHAGEFFERENS1

We have been working to characterize viruses that infect the HAB‐forming pelagophyte Aureococcus anophagefferens Hargraves et Sieburth. Field samples were collected during brown‐tide events in 2002 and tested for the presence of lytic agents. Here, we describe a recently isolated, lytic virus‐like particle (VLP) that is morphologically similar to particles observed in thin sections of infected A. anophagefferens cells from natural samples. TEM and SEM have revealed VLPs consistent with the morphological characteristics of previously described Phycodnaviridae. Large icosahedral particles (～140 nm) of similar shape and morphology dominate cell lysates and are accompanied by smaller phage‐like particles and heterotrophic prokaryotes that appear to be incurable from our cultures. To determine which of these particles interacts with the Aureococcus cells, we preserved cultures during the early stage of infection so that SEM could be used to visualize those particles that attach to the surface of naïve cultures. SEM revealed that 63% of the large icosahedral‐shaped particles attached to A. anophagefferens cells after only 30 min of exposure, while no significant frequency of attachment to the alga was observed for the phage‐like particles. The results of these observations are in contrast to previous studies, where phage‐like particles were reported to infect cells. When considered in conjunction with field observations, the results suggest that this newly isolated virus represents the dominant virus‐morphotype associated with bloom collapse and termination.     

沙冬青属植物叶绿体基因组对比和系统发育分析

该研究以沙冬青和矮沙冬青叶绿体基因组为研究对象,比较分析其基因组结构和系统发育关系。结果显示: (1)沙冬青和矮沙冬青的叶绿体基因组具有典型的四段式结构,全长为153 935 bp和154 140 bp,其中大单拷贝区(LSC)分别为83 891 bp和84 126 bp,小单拷贝区(SSC)分别为18 022 bp和18 014 bp,以及长度各自为26 011 bp和26 000 bp的成对反向重复区(IRs);沙冬青和矮沙冬青均注释130个基因,包括85个蛋白编码基因(PCGs),37个转运RNA(tRNA)以及8个核糖体RNA(rRNA)。(2)沙冬青和矮沙冬青的叶绿体基因组中分别检测出26和15个回文重复序列,39和50个串联重复序列,23和34个散在重复序列。同时都鉴定出96个SSRs位点,包括74和73个单核苷酸重复,5和6个二核苷酸重复,以及各有17个复合SSR位点;边界分析显示两者IR区相似,但仍有一定差异。(3)通过近邻结合法(NJ)对沙冬青和矮沙冬青在内的17种蝶形花亚科以及2种云实亚科植物的叶绿体基因组构建的系统发育树显示,沙冬青和矮沙冬青以较高的支持率聚为一个独立分枝。该研究结果为沙冬青属的种间鉴别、SSR分子标记开发、保育工作、种群动态以及进一步研究坡塔里族的演化过程奠定了理论基础。     

UREASE GENE SEQUENCES FROM ALGAE AND HETEROTROPHIC BACTERIA IN AXENIC AND NONAXENIC PHYTOPLANKTON CULTURES1

While urea has long been recognized as an important form of nitrogen in planktonic ecosystems, very little is known about how many or which phytoplankton and bacteria can use urea as a nitrogen source. We developed a method, targeting the gene encoding urease, for the direct detection and identification of ureolytic organisms and tested it on seven axenic phytoplankton cultures (three diatoms, two prymnesiophytes, a eustigmatophyte, and a pelagophyte) and on three nonaxenic Aureococcus anophagefferens Hargraves et Sieburth cultures (CCMP1784 and two CCMP1708 cultures from different laboratories). The urease amplicon sequences from axenic phytoplankton cultures were consistent with genomic data in the three species for which both were available. Seven of 12 phytoplankton species have one or more introns in the amplified region of their urease gene(s). The 63 urease amplicons that were cloned and sequenced from nonaxenic A. anophagefferens cultures grouped into 17 distinct sequence types. Eleven types were related to α‐Proteobacteria, including three types likely belonging to the genus Roseovarius. Four types were related to γ‐Proteobacteria, including two likely belonging to the genus Marinobacter, and two types were related to β‐Proteobacteria. Terminal restriction fragment length polymorphism (TRFLP) analyses suggested that the sequenced amplicons represented approximately half of the diversity of bacterial urease genes present in the nonaxenic cultures. While many of the bacterial urease sequence types were apparently lab‐ or culture‐specific, others were found in all three nonaxenic cultures, suggesting the possibility of specific relationships between these bacteria and A. anophagefferens.     

Phylogenetic analysis of Oryza species, based on simple sequence repeats and their flanking nucleotide sequences from the mitochondrial and chloroplast genomes

Simple sequence repeats (SSR) and their flanking regions in the mitochondrial and chloroplast genomes were sequenced in order to reveal DNA sequence variation. This information was used to gain new insights into phylogenetic relationships among species in the genus Oryza. Seven mitochondrial and five chloroplast SSR loci equal to or longer than ten mononucleotide repeats were chosen from known rice mitochondrial and chloroplast genome sequences. A total of 50 accessions of Oryza that represented six different diploid genomes and three different allopolyploid genomes of Oryza species were analyzed. Many base substitutions and deletions/insertions were identified in the SSR loci as well as their flanking regions. Of mononucleotide SSR, G (or C) repeats were more variable than A (or T) repeats. Results obtained by chloroplast and mitochondrial SSR analyses showed similar phylogenetic relationships among species, although chloroplast SSR were more informative because of their higher sequence diversity. The CC genome is suggested to be the maternal parent for the two BBCC genome species (O. punctata and O. minuta) and the CCDD species O. latifolia, based on the high level of sequence conservation between the diploid CC genome species and these allotetraploid species. This is the first report of phylogenetic analysis among plant species, based on mitochondrial and chloroplast SSR and their flanking sequences.     

FACTORS AFFECTING DARK SURVIVAL OF THE BROWN TIDE ALGA AUREOCOCCUS ANOPHAGEFFERENS (PELAGOPHYCEAE)1

Aureococcus anophagefferens Hargraves et Sieburth is a pelagophyte responsible for the harmful brown tides in New York, New Jersey, and Rhode Island, USA. Recent reports of blooms in new areas, Maryland, USA, and Saldanha Bay, South Africa, suggest that the alga may be expanding its range, possibly through anthropogenic transport. Experiments tested the ability of A. anophagefferens to survive dark conditions, such as those that might be encountered during transport in ballast tanks or recreational boats. Laboratory cultures were stored in complete darkness for various lengths of time under different conditions. After returning cultures to optimal light and growth conditions, we recorded the time until growth resumed. Cultured A. anophagefferens was able to survive for at least 30 days in the dark. Temperature played a major role in dark survival, because cultures stored at 6° C and 12° C recovered faster than those stored at 18° C or 24° C. Growth phase at the time of storage had a minor effect on recovery, with exponential phase cultures resuming growth more quickly than stationary phase cells. Although the alga is known to have heterotrophic capabilities, the addition of low levels (1–3 μM) of organic nutrients did not appear to increase dark survival. Salinities within normal estuarine and oceanic ranges also did not affect survival. The ability of A. anophagefferens to survive dark periods could allow it to be transported by anthropogenic means to new regions, and temperature and length of storage appear to be key factors determining cell viability during prolonged darkness.     

头花杜鹃、陇蜀杜鹃及杜鹃属植物叶绿体基因组比较分析

头花杜鹃(Rhododendron capitatum)和陇蜀杜鹃(R. przewalskii)是极具观赏价值的野生花卉和药用植物。为探讨头花杜鹃和陇蜀杜鹃叶绿体基因组的遗传结构及进化特征,该研究利用 Illumina HiSeq 4000 平台对头花杜鹃和陇蜀杜鹃的叶绿体全基因组进行测序,经组装和注释后,结合 7 个已发表的杜鹃属植物叶绿体全基因组进行比较基因组学分析和系统发育分析。结果表明:(1)头花杜鹃和陇蜀杜鹃叶绿体全基因组呈典型的环状四分体结构,均由一个大单拷贝区(105 990、109 191 bp)、一个小单拷贝区(2 617、2 606 bp)和一对反向重复区(45 825、47 516 bp)构成,全长分别为200 257、206 829 bp。(2)头花杜鹃和陇蜀杜鹃叶绿体基因组中共鉴定出 263 个SSR位点,大部分 SSR 偏好使用 A/T 碱基,密码子偏好使用 A/U 结尾。(3)杜鹃属植物叶绿体全基因组中普遍存在基因丢失以及基因组重排等结构变异现象。该研究丰富了杜鹃属植物的基因组资源,为头花杜鹃、陇蜀杜鹃的资源开发、遗传进化、育种及系统发育相关研究提供了理论参考。     

The Complete Sequence of the Acacia ligulata Chloroplast Genome Reveals a Highly Divergent clpP1 Gene

Legumes are a highly diverse angiosperm family that include many agriculturally important species. To date, 21 complete chloroplast genomes have been sequenced from legume crops confined to the Papilionoideae subfamily. Here we report the first chloroplast genome from the Mimosoideae, Acacia ligulata, and compare it to the previously sequenced legume genomes. The A. ligulata chloroplast genome is 158,724 bp in size, comprising inverted repeats of 25,925 bp and single-copy regions of 88,576 bp and 18,298 bp. Acacia ligulata lacks the inversion present in many of the Papilionoideae, but is not otherwise significantly different in terms of gene and repeat content. The key feature is its highly divergent clpP1 gene, normally considered essential in chloroplast genomes. In A. ligulata, although transcribed and spliced, it probably encodes a catalytically inactive protein. This study provides a significant resource for further genetic research into Acacia and the Mimosoideae. The divergent clpP1 gene suggests that Acacia will provide an interesting source of information on the evolution and functional diversity of the chloroplast Clp protease complex.     

INTERACTIVE EFFECTS OF IRRADIANCE AND TEMPERATURE ON THE PHOTOSYNTHETIC PHYSIOLOGY OF THE PENNATE DIATOM PSEUDO‐NITZSCHIA GRANII (BACILLARIOPHYCEAE) FROM THE NORTHEAST SUBARCTIC PACIFIC1

This study examined how light and temperature interact to influence growth rates, chl a, and photosynthetic efficiency of the oceanic pennate diatom Pseudo‐nitzschia granii Hasle, isolated from the northeast subarctic Pacific. Growth rates were modulated by both light and temperature, although for each irradiance tested, the growth rate was always the greatest at ～14°C. Chl a per cell was affected primarily by temperature, except at the maximum chl a per cell (at 10°C) where the effects of light were noticeable. At both ends of the temperature gradient, cells displayed evidence of chlorosis even at low light intensities. Chl fluorescence data suggested that cells at 8°C were significantly more efficient in their photosynthetic processes than cells at 20°C, despite having comparable concentrations of chl. Cells at low temperature showed photosynthetic characteristics similar to high‐irradiance‐adapted cells. The decline of growth rates beyond the optimum growth temperature coincided with the cell's inability to accumulate chl in response to increasing temperature. The decline in photosynthetic ability at 20°C was likely due to a combination of high‐temperature stress on cellular membranes and a decline in chl. Our results highlight the important interactions between light and temperature and the need to incorporate these interactions into the development of phytoplankton models for the subarctic Pacific.     

Comparative plastid genomics of Pinus species: Insights into sequence variations and phylogenetic relationships

Pinus L. is the largest genus of conifers and provides a classical model for studying species divergence and phylogenetic evolution by gymnosperms. However, our poor understanding of sequence divergence in the whole plastid genomes of Pinus species severely hinders studies of their evolution and phylogeny. Thus, we analyzed the sequences of 97 Pinus plastid genomes, including four newly sequenced genomes and 93 previously published plastomes, to explore the evolution and phylogenetic relationships in the genus Pinus. The complete chloroplast genomes of Pinus species ranged in size from 109 640 bp (P. cembra L.) to 121 976 bp (P. glabra Walter), and these genomes comprised circular DNA molecules in a similar manner to those of most gymnosperms. We identified 9108 repeats where most of the repeats comprised the dispersed type with 3983 (44%), followed by tandem repeats with 2999 (33%), and then palindromic repeats with 2126 (23%). Sixteen divergence hotspot regions were identified in Pinus plastid genomes, which could be useful molecular markers for future population genetics studies. Phylogenetic analysis showed that Pinus species could be divided into two diverged clades comprising the subgenera Strobus (single needle section) and Pinus (double needles section). Molecular dating suggested that the genus Pinus originated approximately 130.38 Mya during the late Cretaceous. The two subgenera subsequently split 85.86 Mya, which was largely consistent with the other molecular results based on partial DNA markers. These findings provide important insights into the sequence variations and phylogenetic evolution of Pinus plastid genomes.     

极小种群植物川柿叶绿体基因组特征与系统发育分析（附录）

川柿(Diospyros sutchuensis)为极小种群和国家重点保护野生植物,分布范围狭窄,种群数量极少。目前,川柿基因组信息缺乏,在柿属(Diospyros)中的系统亲缘关系不明确。该研究通过Illumina平台对川柿叶绿体基因组进行测序,应用Getorganellev1.7.3.4和PGA软件对基因组进行组装和注释,使用DnaSP6.12.03软件进行多序列对比分析,并使用REPuter、Tandem Reapeats Finder和MISA软件进行重复序列分析,使用CodonW1.4和EasyCodemL软件分别进行密码子偏好性和选择压力分析。同时,基于4个不同的叶绿体基因组序列数据集,使用IQtree软件分析川柿与11个柿属物种的系统发育关系。结果表明:(1)川柿叶绿体基因组全长157 917 bp,包含1对26 111 bp的反向重复区、大单拷贝区(87 303 bp)和小单拷贝区(18 392 bp),GC碱基含量为37.4%。(2)川柿叶绿体基因组共注释到113个基因,包括79个蛋白编码基因、30个tRNA基因和4个rRNA基因; 共检测到49个长重复序列、27个串联重复序列和34个简单重复序列; 蛋白编码基因中高频密码子31个,多数密码子末位碱基为A或U,编码亮氨酸的密码子使用最多; 基因组编码区比非编码区更为保守,10个高变热点区域可作为潜在的分子标记; 蛋白编码基因中有8个基因(ndhB、ndhG、ndhI、rbcL、rpoB、petB、petD、rps12)受到正选择压力。(3)系统发育分析显示,川柿与老鸦柿(D. rhombifolia)和乌柿(D. cathayensis)亲缘关系最为密切,它们与海南柿(D. hainanensis)共同形成一个单系分支。该研究结果既为川柿及柿属种质资源鉴定、遗传多样性保护以及种群恢复等提供了叶绿体基因组资源,也为阐明川柿的系统进化提供了重要的分子信息。     

The complete chloroplast genome of the spring ephemeral plant Alyssum desertorum and its implications for the phylogenetic position of the tribe Alysseae within the Brassicaceae

Alyssum desertorum (Alysseae, Brassicaceae) is an annual spring ephemeral plant whose life cycle is only 2–3 months. It typically has high photosynthetic capacity and a high growth rate. However, little was known about the chloroplast (cp) genome structure of this species. Furthermore, the phylogenetic position of the tribe Alysseae relative to other tribes in the Brassicaceae has not been established and there appear to be inconsistences between different DNA markers. This study is the first report on a cp genome of the genus Alyssum and discusses the phylogenetic relationships of the tribe Alysseae relative to other tribes in the family. The complete cp genome of A. desertorum was 151 677 bp in size and is thus the smallest cp genome of Brassicaceae sequenced to date. The genome includes a large single‐copy region of 81 551 bp, a small single‐copy region of 17 804 bp, and two inverted repeats of 26 161 bp each. The genome contains 132 genes, including 86 protein‐coding genes (PCGs), 38 tRNA genes and 8 rRNA genes. A total of 16 genes contained introns, including 10 PCGs and 6 tRNA genes; the ycf3 and clpP genes contained two introns, and the remaining genes each contained one. Compared to the cp genomes of 21 other Brassicaceae species, the cp genome of Alyssum desertorum was the smallest, as due to variation in gene content and gene length, such as a lack of the rps16 gene and the deletion of some coding genes. Additionally, deletions of introns and intergenic spacers were observed, but their total length was not significantly shorter than those of other taxa. Phylogenetic analysis at the tribal level based on a cp genome dataset revealed that the tribe Alysseae is an early‐diverging lineage that is sister to other species within subclade B of clade II.