Molecular characterization of a phytoplasma from the aster yellows (16SrI) group naturally infecting Populus nigra L. ‘Italica’ trees in Croatia

Leaf and branch samples were collected from 10 Populus nigra L. ‘Italica’ trees found in the Zagreb urban area. One of the P. nigra L. ‘Italica’ trees exhibited leaf yellowing, overall sparse foliage, stunting and decline. Two methods for the nucleic acid extraction in the phytoplasma detection from P. nigra were compared. A phytoplasma from the aster yellows group (16SrI) was detected by PCR in the symptomatic as well as in four apparently asymptomatic plants. The pathogens are classified, by restriction fragment length polymorphism (RFLP) analysis of the 16S rRNA gene plus the spacer region, as members of a newly described subgroup 16SrI‐P. Phylogenetic analysis of 16S ribosomal and spacer region sequence confirmed their close relationship with the other members of the aster yellows group. However, RFLP analyses of other conserved genes such as tuf, BB88 and ribosomal protein rpL22 gene, clearly confirmed that this is a molecularly distinguishable phytoplasma belonging to a new ribosomal protein subgroup designated rp‐O.     

新疆额尔齐斯河流域白杨派植物居群遗传多样性分析

应用SSR标记技术,对新疆齐斯河流域河谷分布的白杨派树种银白杨、银灰杨和欧洲山杨天然居群的克隆结构、克隆多样性和遗传多样性进行研究。结果表明:欧洲山杨、银白杨和银灰杨均有很强的克隆繁殖特性。欧洲山杨、银白杨居群的克隆多样性均比较高,Simpson指数分别为0.987和0.983。与欧洲山杨相比较,银白杨居群具有较低的遗传多样性,Shannon信息指数分别为1.068 9和0.324 9,Nei多样性指数平均为0.505 6和0.211 2。欧洲山杨和银白杨居群间的遗传一致度均较高,变幅分别为0.778 1 0.954 4和0.975 1 0.994 6,反映出其超长距离的基因流特性,超强的基因流阻止了银白杨和欧洲山杨居群的遗传分化。研究发现,银白杨和欧洲山杨分别有95%和89.98%的遗传变异存在于居群内。     

Rapid detection and identification of ‘Candidatus Phytoplasma pini’‐related strains based on genomic markers present in 16S rRNA and tuf genes

In order to devise a method for rapid detection of ‘Candidatus (Ca.) Phytoplasma pini’ and for distinguishing it rapidly from other phytoplasmas, we carried out preliminary sequencing of Lithuanian ‘Ca. Phytoplasma pini’ strain PineBL2 using Illumina (NGS) technology and targeted sequencing employing universal phytoplasma primers. We focused on two resulting chromosomal segments that contained a 16S rRNA gene and a translation elongation factor EF‐TU gene (tuf), respectively. Based on alignments of the ‘Ca. Phytoplasma pini’ gene sequences with the corresponding sequences of other phytoplasmas, we designed new primer pairs for PCR‐based detection of ‘Ca. Phytoplasma pini’. Because ‘Ca. Phytoplasma pini’ strains are expected to reside in the pine phloem in a very low titre, one might expect that they could be detected only by nested PCR. By contrast, the primers and PCR protocols designed in the current work enabled rapid direct PCR detection and identification of ‘Ca. Phytoplasma pini ’ by amplifying a 484 bp 16S rDNA segment and a 513 bp tuf gene fragment that contain regions unique to this phytoplasma .     

Identification and characterization of the phytoplasma associated with elm yellows in southern Italy and its relatedness to other phytoplasmas of the elm yellows group

In the neighbouring regions Basilicata, Campania, and Calabria of southern Italy, diseased trees of European field elm (Ulmus minor) were examined for phytoplasmal infection using polymerase chain reaction (PCR) technology. All affected trees examined tested positively. Using a primer pair specific for the EY phytoplasma group and restriction fragment length polymorphism (RFLP) analysis of PCR-amplified ribosomal DNA, the organism detected was identified as the elm yellows (EY) phytoplasma. RFLP analysis of PCR-amplified ribosomal DNA was also employed to attempt differentiation within the EY group which includes, in addition to the EY agent, phytoplasmas infecting Rubus, alder, eucalypts, Spanish broom, and grapevine. Following separate digestion with AluI, RsaI, Sau3AI, MseI, HhaI, and KpnI, all PCR-products from EY-group phytoplasmas examined had similar RFLP profiles. When the same ribosomal DNA fragments were digested with TaqI restriction endonuclease, three different restriction profiles were detected among the EY-group phytoplasmas. These profiles represented, respectively, (1) the EY phytoplasma (2) the phytoplasmas causing rubus stunt and being associated with alder yellows, spartium witches broom, and eucalyptus little leaf, and (3) the flavescence dorée phytoplasma. RFLP analysis using TaqI endonuclease enabled for the first time the differentiation of the phytoplasmas associated with alder yellows, eucalyptus little leaf, and spartium witches broom from the EY agent.     

Molecular identification of a phytoplasma associated with Sophora Root yellows

A phytoplasma infecting Sophora Root (Sophora alopecuroides) was detected and identified in Alar, Xinjiang Uygur Autonomous Region of China. Typical phytoplasma bodies were observed in sieve tubes of the diseased plants by transmission electron microscopy. A partial 16S rRNA gene and ribosomal protein (rp) genes containing rpl22 (rplV) and rps3 (rpsC) were amplified by direct and nested PCR. Based on the sequence similarity of the 16S rRNA and rp genes with accompanying phylogenetic analyses, the phytoplasma associated with Sophora Root yellows belongs to the 16SrI group (aster yellows group). Virtual RFLP analysis of these 16S rRNA and rp gene sequences showed distinct differences from those of reference phytoplasma strains representing previously described subgroups of the 16SrI group. Moreover, the similarity coefficient (0.92) of the RFLP profile of this phytoplasma was less than the threshold similarity coefficient (0.97) required for subgroup classification. Thus, the phytoplasma isolate of Sophora Root plants, designated as ‘SoRY’, represents a new subgroup. Furthermore, this is the first report of phytoplasma disease associated with Sophora Root plants.     

Molecular characterization of a phytoplasma associated with Euonymus bungeanus witches’ broom in China

Euonymus bungeanus plants exhibiting symptoms of abnormal branches, small leaves and phyllody, which is indicative of E. bungeanus witches’ broom (EbWB) disease, have recently been found in Beijing, China. A phytoplasma from symptomatic E. bungeanus plants was identified by 16S rRNA polymerase chain reaction (PCR) using the phytoplasma‐specific universal primer pair R16mF2/R16mR1. Inoculation of healthy E. bungeanus plants by grafting with diseased scions was also performed. The rp and secY genes of the EbWB phytoplasma were cloned and sequenced as was the 16S rRNA gene. Sequence and phylogenetic analyses of 16S rRNA, rp and secY genes indicated that the phytoplasma associated with E. bungeanus belongs to the 16SrV‐B, rpV‐C and secY‐C subgroup, the same subgroup as the jujube witches’ broom (JWB) phytoplasma that is widely distributed among jujube trees in China. Comparative analyses based on virtual restriction fragment length polymorphism (RFLP) showed that the EbWB phytoplasma is more closely related to another 16SrV‐B subgroup strain: RPWB (Robinia pseudoacacia witches’ broom). To the best of our knowledge, this is the first report of a witches’ broom phytoplasma in E. bungeanus in China, and the findings add a new cultivated plant species to the already broad natural host range of 16SrV‐B subgroup phytoplasmas.     

Genetic variability of Alder yellows phytoplasma in Alnus glutinosa in its natural Spreewald habitat

The genus ‘Candidatus Phytoplasma’ comprises wall‐less bacteria colonizing the phloem of plants and insect tissues. Phytoplasmas are associated with diseases in over 1000 plant species worldwide, including many important crops as well as forest trees. Alder yellows (AldY) phytoplasma, which frequently infects Alnus spp., is closely related to the economically important phytoplasma causing Flavescence dorée (FD) in grapevines. In a natural habitat (Spreewald, Brandenburg, Germany), 57 Alnus glutinosa (black alder) trees were examined for phytoplasma infection in summer 2013. No phytoplasma typical infection‐associated symptoms such as yellowing and decline were observable in this natural swamp‐alder area. Amplification followed by a restriction fragment length polymorphism, and a sequence analysis of the 16S rDNA, allowed for the detection of AldY phytoplasmas in all examined trees and their assignment to the taxonomic group 16SrV‐C. Additional analyses of the non‐ribosomal marker gene methionine aminopeptidase (map) revealed diverse strains as well as mixed infections with closely related AldY strains, and the strains were assigned to phylogenetic clusters closely related to German Palatinate grapevine yellows, AldY or FD strains. The results confirmed that AldY phytoplasmas infection in A. glutinosa is prevalent. The results also indicate a presence of an established phytoplasma population in chronically infected black alder.     

Campsisgrandiflora as a new host species harbouring two novel 16SrI subgroups of phytoplasmas

In September 2019, two diseased plants of Campsis grandiflora showing the main symptom of witches' ‐broom (CgWB) were found in a nursery garden in Yangling, Shaanxi province, China. Partial 16S ribosomal RNA (F2nR2 region) and ribosomal protein (rp) genes of phytoplasmas were generated from the symptomatic plants by PCR amplification, and phytoplasma bodies were observed in the sieve tube elements of the CgWB samples under a transmission electron microscope, indicating phytoplasma infection in the two CgWB plants. Restriction fragment length polymorphism analysis of the F2nR2 region and similarity coefficient results suggested that the two associated phytoplasmas belong to two novel subgroups of 16SrI (aster yellows) group, designated as AK and AL. On the reconstructed phylogenetic trees based on F2nR2 regions and rp genes of phytoplasmas, respectively, the CgWB‐associated phytoplasmas clustered together with members of 16SrI subgroups. This was the first record of phytoplasmas infecting C. grandiflora worldwide.     

Occurrence of ‘Candidatus Phytoplasma ziziphi’ in apple trees in China

Young apple trees exhibiting symptoms of little leaf, margin involute and yellows were observed in an open‐air nursery in Yangling, Shaanxi, China. Transmission electron microscopy showed typical phytoplasma bodies in the sieve tube elements of symptomatic leaf samples. In two nested polymerase chain reaction (PCR) assays, products of expected size of 1.1 and 1.2 kb were separately generated from the total DNAs of symptomatic samples. A restriction fragment length polymorphism (RFLP) analysis of the purified 1.2 kb PCR products indicated that the disease associated with apple trees was ‘Ca. Phytoplasma ziziphi’. To our knowledge, this is the first report of ‘Ca. Phytoplasma ziziphi’ infecting apple trees in China.     

Molecular identification of a phytoplasma associated with Elm witches’‐broom in China

Elm samples with and without witches’‐broom symptoms (EWB) were collected from Tai’an and Zhaoyuan, Shandong Province, China. Phytoplasmal cells were observed in the phloem cells of symptomatic plants under electron microscope. Specific fragments of about 1.2 kb in length were amplified with nested‐PCR from symptomatic samples, while no fragment was obtained from healthy plants. The 16S rRNA gene sequences of the phytoplasmas associated with elm witches’‐broom in Tai’an (EWB‐TA) and Zhaoyuan (EWB‐ZHY) had high similarities, and formed a sublineage in phylogenetic tree, with members of subgroup B or D of aster yellows group (16SrI). Computer simulated restriction fragment length polymorphism analysis of 16S rRNA gene revealed that EWB‐TA and EWB‐ZHY patterns had similarity coefficients of 1.00 with the pattern from the representative strains of subgroup 16SrI‐B, and had a similarity coefficient of lower than 0.97 with representatives of other subgroups. These results indicated that the phytoplasma strain associated with elm witches’‐broom in China was very closely related to ‘Candidatus Phytoplasma asteris’ OAY, belonging to subgroup‐B of aster yellows group (16SrI‐B). This is the first report of a phytoplasma associated with elm witches’‐broom disease in China.     

“Candidatus Phytoplasma solani” associated with Eucalyptus witches’ broom in Iran

During summer of 2015, Eucalyptus camaldulensis plants showing witches’ broom, little leaf and general yellowing of the foliage were observed in west of Fars and Khozestan province of Iran. DNA from samples of 22 symptomatic and two asymptomatic trees was extracted and subjected to molecular analyses. Nested‐PCR test using R16F2n/R16R2 primers confirmed phytoplasma presence in 63% of symptomatic Eucalyptus plants. Sequence analysis along with virtual RFLP of the 16S ribosomal DNA allowed to classify three Eucalyptus witches’ broom strains into the “stolbur” (“Candidatus phytoplasma solani”) 16SrXII‐A subgroup. Comparison of the secA and secY gene sequences with sequences deposited in GenBank confirmed the phytoplasma identity. Real and virtual RFLPs of the amplified secY gene using HaeIII, MseI and RsaI restriction enzymes showed profiles indistinguishable from each other. This is the first study reporting E. camaldulensis as a new host species for “Ca. P. solani.”     

寡核苷酸管芯片技术检测和鉴别我国不同组植原体

[目的]不同组植原体检测和鉴别的特异性探针已有报道,为了筛选出适合于我国不同组植原体检测和鉴别的特异性探针,建立管芯片检测和鉴别植原体技术,并对我国发生的疑似植原体病害进行鉴别。[方法]通过PCR扩增结合管芯片杂交技术,对收集到的15种植原体侵染的植物样品及其健康对照进行检测和鉴别。[结果]建立了管芯片检测和鉴别植原体技术体系。15种病害样品中,13种获得显著的阳性杂交信号,并且所有的健康对照都呈现为阴性。13种植原体病害依16Sr DNA直接测序可分为16SrⅠ、Ⅱ、Ⅴ、XIX四组植原体。在所有探针中,植原体的通用探针(Pp-502)可以检测到所有确定的植原体样品。16SrⅠ组特异性探针(PpⅠ-465)可以确定16SrⅠ组的泡桐丛枝、苦楝丛枝、桑树萎缩和莴苣黄化4种植原体样品。16Sr II组特异性探针(PpⅡ-629)仅可以确定16Sr II组的花生丛枝、甘薯丛枝和臭矢菜丛枝3种植原体样品。但16Sr V组的枣疯病、樱桃致死黄化和重阳木丛枝及16Sr XIX组的板栗黄化皱缩植原体与其他组专化性探针皆有明显的交叉杂交信号。相比于PCR扩增的凝胶电泳检测,管芯片检测的灵敏度提高了1 000倍。对疑似植原体病害的诊断结果显示河南濮阳的红花槐丛枝的病原应为16Sr V组植原体,福建福州的长春花黄化丛枝应为16SrⅠ组植原体;而北京戒台寺牡丹黄化皱叶和内蒙古包头柳树丛枝未出现任何植原体专化的杂交信号。[结论]管芯片杂交技术作为一种检测和鉴别植原体的方法,可应用于我国植原体病害调查和诊断,并为植原体的鉴别和分类提供可靠的依据。     

Phytoplasma associated with Chinese tallow tree yellowing disease in China represents a new 16SrIII subgroup

Recently, samples of the Chinese tallow tree (Sapium sebiferum) displaying yellowing symptoms were collected from a grove in Tai'an, Shandong Province, China. The association of phytoplasma with yellowing disease was ascertained using nested polymerase chain reaction (PCR) of the 16S rRNA gene by using the phytoplasma‐specific universal primer pair P1/P7, followed by R16F2n/R16R2 as nested primers, and rp genes primed using rpL2F3/rp(I)R1A followed by rp(III)‐FN/rp(I)R1A. The sequence and phylogenetic analyses of the 16S rRNA gene and rp genes revealed that the phytoplasma associated with the Chinese tallow tree belonged to the 16SrIII group (the X‐disease group). Computer‐simulated and gel‐based restriction fragment length polymorphism (RFLP) analyses revealed that the RFLP patterns were different from the reference patterns of all previously established 16SrIII subgroups, with the maximum similarity coefficient exceeding the threshold for delineation of a new subgroup RFLP pattern type within the 16SrIII group. Thus, the phytoplasma associated with the Chinese tallow tree yellowing disease, designated as ‘CTTY’, represents a new subgroup (16SrIII‐Y). This study shows the Chinese tallow tree as a new host of phytoplasma belonging to the 16SrIII group in China and worldwide.     

Salix tetradenia Hand.‐Mazz: a new natural plant host of ‘Candidatus phytoplasma’

This article reports Salix tetradenia Hand.‐Mazz as a new host of Candidatus phytoplasma and demonstrates its association with witches' broom disease on S. tetradenia plants. Plants exhibited typical visual symptoms of phytoplasma with virescence, abnormality of flowers and witches' broom, and phytoplasma bodies were observed by transmission electron microscopy. Products of 1.2 kb were amplified by nested PCR using phytoplasma universal primer pairs R16F2n/R16R2, but no amplification products were obtained from symptomless plants. The sequence analysis of three 16S rDNA isolates showed 99.84%, 99.68% and 99.76% identify, respectively, with the homologous gene (nc_005303) of member of ‘Candidatus phytoplasma asteris’ (16SrI) group. Phylogenetic and virtual computer‐simulated restriction fragment length polymorphism analysis of the 16S rRNA, tuf and rp gene sequences confirmed that this phytoplasma clustered in the 16SrI‐B subgroup. These results indicated that the diseased S. tetradenia plants were infected by a phytoplasma of the 16SrI group. This is the first report on the occurrence of phytoplasma disease on S. tetradenia worldwide.     

Photosynthesis and chlorophylla fluorescence of two poplars under water stress

In order to estimate drought tolerance in two species ofPopulus, Populus alba var. pyramidalis Bunge andPopulus nigra L. var. thevestina (Dode), widely planted at the southern margin of the Taklimakan Desert, responses of net photosynthesis and chlorophylla fluorescence to irradiance and water stress were examined under laboratory conditions. Results showed thatP. alba exhibited stronger drought tolerance thanP. nigra. A linear relationship between net photosynthetic rates (A _n) and electron transport rates (ETR) was found in both poplars under different irradiance and leaf water potentials. Net photosynthetic rates (A _n) in the two poplars significantly correlated linearly with the photochemical efficiency of the saturation light-adapted leaves throughout the range of leaf water potentials, suggesting that the leaf photochemical efficiency in saturation light-adapted leaves can be used to estimate leaf photosynthetic capacity and leaf water conditions in the two poplars within a magnitude of air temperature between 20 and 30°C. This research was supported by the Japan Society for the Promotion of Science (CAS-9601), the Chinese Academy of Sciences and partly supported by the National Natural Foundation of China (39870154).     

Infection of Populus alba var. hickeliana by Melampsora medusae Thüm.

The first record of infection of Populus alba var. hickeliana by the American rust, Melampsora medusae Thum. is reported. The morphology of uredospores of rust on P. alba is compared with that of other Melampsora spp. infecting white poplars. The implications of these observations for the widespread establishment in the future of white × black hybrid poplars are discussed.     

First report of Cryptosphaeria pullmanensis as causal agent of Cryptosphaeria canker of Populus nigra in Iran

A diatrypaceous fungus was isolated consistently from cankers on Populus nigra trees showing dieback symptoms in Kohgiluyeh Boyer‐Ahmad, Zanjan and Esfahan provinces in Iran. Morphological characteristics and phylogenetic analyses of the ITS region of the rDNA identified the taxon as Cryptosphaeria pullmanensis. Pathogenicity tests conducted in potted 3‐month‐old cuttings of P. nigra confirmed Koch's postulates and revealed that C. pullmanensis caused canker on this host. This is the first report of C. pullmanensis causing a canker disease on P. nigra in Iran.     

Occurrence and significance of bacteria in living trees of Populus nigra L.

On the occurrence and significance of bacteria in living trees of Populus nigra L. Eleven strains of bacteria were isolated from sapwood and heartwood of living poplar trees (Populus nigra L.) and identified mostly as Erwinia, Xanthomonas, Agrobacterium and Acinetobacter. Most of them were able to attack milled wood and the wood components pectin, hemicelluloses and holocellulose; α-cellulose and lignin were not consumed. The capillary liquid in the xylem of poplar served as a nutrient for the isolated bacteria. The significance of these bacteria for wetwood formation is discussed.     

Development of Melampsora ciliata rust on nursery‐grown poplars in north‐western Himalayas

Development of leaf rust (Melampsora ciliata) in different species, hybrids and cultivars of poplar (Populus spp.) was studied in nursery‐grown plants. Five different criteria were used to assess the disease development. The mean disease index on 10 August was 9.4% which increased to 70.0% on 10 October. The lowest disease index (5.5%) was recorded in P. yunnanensis whereas the maximum was recorded in P. × euramericana‘Rubra‐Poiret’ (59.5%). The apparent infection rate per unit per day was highest in P. nigra × P. trichocarpa (9.7 × 10^–2) whereas the minimum occurred in P. maximowiczii × P. berolinensis‘Oxford’ (3.3 × 10^–2). The area under the disease progress curve was a maximum in P. × euramericana‘Rubra‐Poiret’ (26.7) and a minimum in P. yunnanensis (1.6). Complete defoliation by the first half of October occurred in P. nigra × P. trichocarpa, which also had the maximum apparent infection rate and area under the disease progress curve. Inoculum production was highest in P. nigra × P. trichocarpa and lowest in P. maximowiczii × P. berolinensis‘Oxford’.     

A new phytoplasma associated with witches’‐broom on Japanese maple in China

In September 2011, five Japanese maple (Acer palmatum Thunb.) trees with symptoms of witches’‐broom were observed growing near each other at a maple grove in Northwest A&F University, Yangling, Shaanxi Province, China. Pleomorphic phytoplasma‐like bodies were observed in the phloem sieve tube elements of symptomatic plants under transmission electron microscope (TEM). The presence of phytoplasma was further confirmed by a nested polymerase chain reaction (PCR), which amplified a 1.2‐kb fragment using universal primer pair R16mF2/R16mR1 followed by further amplification using primer pair R16F2n/R16R2. Phylogenetic analysis and gel‐based restriction fragment length polymorphism (RFLP) analysis demonstrated that the Japanese maple witches’‐broom was associated with phytoplasma belonging to subgroup 16SrI‐D. This is the first report of a phytoplasma disease of Japanese maple.