The Presence of a New S-RNase Allele (S10) in Asian Pear (Pyrus pyrifolia (Burm; Nakai))

A PCR (polymerase chain reaction) amplification method using newly designed S-RNase primers was carried out in five Korean-bred pear cultivars and ten Japanese-bred pear cultivars. A new S-RNase allele, designated as S₁₀, was discovered from ‘Chengsilri’, containing a 1513 bp and two exons (213 bp in total) that coded for a peptide of 71 amino acids. The S₁₀-RNase allele contained the three conserved cysteine residues peculiar to S-RNase in Japanese pear and one histidine residue essential for RNase activity. We compared nucleotide sequence similarity of the exon regions of ten pear S-RNase alleles. The nucleotide sequence of S₁ showed a high similarity to S₄ (97.4%) and the new S₁₀ shows 77.8% (S₅) to 84.4% (S₄) similarity with the other pear S-RNase alleles. S₁₀ had a unique restriction endonuclease site for ‘HhaI’, with digests yielding fragments of 1235 and 491 bp. The S-genotype of pear cultivar (‘Chengsilri’) was determined to be S₅S₁₀ by PCR–RFLP (restriction fragment length polymorphism). Cluster analysis of 49 known S-RNase alleles of the Rosaceae separated into two divergent groups are as follows: group I: pear and apple, group II: almond, sweet cherry and mume.     

不同氮素形态配施氨基酸对翠冠梨生长及品质的影响研究

为探讨不同氮素配施氨基酸对梨树生长、产量及品质的影响,连续两年在8年生翠冠梨上开展了等氮条件下单施硝铵和尿素及配施氨基酸的研究。结果表明,单施硝铵处理较单施尿素处理显著增加了SPAD值、叶面积和百叶重,分别比尿素处理增加了2.8%、5.9%和7.2%。硝铵配施氨基酸处理显著增加了单果重。单施硝铵处理较单施尿素处理显著增加了单株产量、硬度和可溶性糖,有增加可溶性固形物和可滴定酸含量的趋势。花后110天硝铵配施氨基酸处理比单施硝铵处理显著增加了果糖、葡萄糖和蔗糖含量。各种糖在不同生育期所占比例不同,花后46天果实中山梨醇所占比例最高,约占总糖含量的69%~73%,葡萄糖和果糖比例相当;随着果实的发育,果糖和蔗糖比例逐渐增加,山梨醇比例降低。总体看来,硝铵配施氨基酸处理更有利于梨树生长和果实品质的提高。     

硼对砀山酥梨营养生长和果实品质的影响

为改善砀山酥梨树体营养状况,提高果实品质,在其新梢生长期（3～7月份）,叶面喷施不同浓度水平（0.2%,0.3%,0.4%）的硼肥（硼砂）,研究不同处理对砀山酥梨叶片硼含量及其变化动态、砀山酥梨营养生长和果实品质的影响。结果表明:砀山酥梨叶片硼含量随新梢生长而上升,在新梢停长期含量最高,之后开始下降,呈现低高低的变化趋势;叶面喷施不同浓度水平的硼肥后,在0.2%～0.3%范围内,叶片含硼量随喷施浓度的提高而增加;适量施硼促进了砀山酥梨的新梢生长,显著增加了单叶面积、百叶重、叶片叶绿素含量;提高了砀山酥梨果实的可溶性糖、可溶性固形物含量和果肉硬度,降低了果实含酸量。综合果树生长状况、果实品质和生产成本等因素,砀山酥梨树体缺硼时,在新梢生长期的3～7月份,叶面喷施2～3次0.3% 的硼肥效果最好。     

Effect of CO2 enrichment on fruit growth and quality in Japanese pear (Pyrus serotina Reheder cv. Kosui)

Six year-old Japanese pear (Pyrus seratina Reheder cv. Kosui) trees grafted on P. serotina cv. Nihonyamanashi were grown in containers filled with Granite Regosol under glasshouse conditions. At different stages of fruit growth, pear trees were exposed to an elevated CO₂ concentration (130 Pa CO₂ ) along with a control (35 Pa CO₂). For one group of plants, CO₂ enrichment was applied for 79 d from 52 d after full bloom (DAB) to fruit maturity (long-term CO₂ enrichment) and for another group the same treatment was applied for 35 d from 96 DAB to fruit maturity (short-term CO₂ enrichment). The effects of the elevated CO₂ concentration on vegetative growth, mineral contents, and fruit production and quality were examined. Long-term CO₂ enrichment enhanced vegetative growth, without any significant effect on the mineral contents in either flower bud or fruit except for a remarkable increase in the K content. Long-term CO₂ enrichment increased the fruit size and fresh weight, but had no significant effect on the fruit quality. On the other hand, the short-term CO₂ enrichment did not induce any significant change in the fruit size but increased the fruit sugar concentration. Along with the reduction of the sorbitol concentration in fruit, the fructose and sucrose concentrations increased and these changes occurred earlier at elevated CO₂ than at ambient CO₂ concentrations. From these results, we concluded that the effect of CO₂ enrichment on fruit growth varies depending upon the growth stages of fruit: during the initial and fruitlet stages when fruit expansion occurs, CO₂ enrichment increases the fruit size, whereas, during maturation when fruit expansion has slowed down and sugar accumulation in fruit is active, it increases the fruit sugar concentration.     

Selenium uptake and fruit quality of pear (Pyrus communis L.) treated with foliar Se application

Consuming selenium (Se)‐rich fruit may play an important role in human health by supplementing Se. The aims of this study were to (1) determine the Se tolerance of pear trees and (2) explore the effects of different Se sources and spraying dates on Se concentrations and transformation of inorganic Se into organic Se compounds in various parts of the pear tree and on fruit quality. Spraying Se(IV) or Se(VI) at a concentration of > 40 mg L^?1 resulted in leaf yellowing, marginal withering, and finally leaf abscission. Furthermore, fruit growth and appearance were adversely affected at high Se doses. At the same application stage, Se concentrations in different parts of the fruit were 1.1–4.7 times higher under Se(VI) compared to Se(IV) treatment. For the same Se source, Se concentrations under treatment at the fruit expanding stage were 1.9–2.5 times higher than under treatment at the fruit‐setting stage. Of the total Se in the fruit, 40% accumulated in the juice under Se(IV) treatment and > 70% under Se(VI) treatment. However, regardless of the Se source, the Se in the juice was almost all inorganic, while the transformation of inorganic Se into organic Se compounds was > 80% and 70% in the peel and pomace, respectively. Foliar Se application somewhat improved fruit quality by increasing the concentration of soluble solids. Compared to other species, Se tolerance in pear trees was relatively low. Given the high accumulation of Se and efficient transformation of inorganic Se into organic Se compounds in the peel, consumption of unpeeled Se‐rich pears is recommended.     

Phenolic profile of quince fruit (Cydonia oblonga Miller) (pulp and peel)

Qualitative and quantitative analyses of phenolic compounds were carried out on quince fruit samples from seven different geographical origins in Portugal. For each origin, both pulp and peel were analyzed by reversed-phase HPLC-DAD and HPLC-DAD/MS.The results revealed differences between the phenolic profiles of pulps and peels in all studied cases. The pulps contained mainly caffeoylquinic acids (3-, 4-, and 5-O-caffeoylquinic acids and 3,5-dicaffeoylquinic acid) and one quercetin glycoside, rutin (in low amount). The peels presented the same caffeoylquinic acids and several flavonol glycosides: quercetin 3-galactoside, kaempferol 3-glucoside, kaempferol 3-rutinoside, and several unidentified compounds (probably kaempferol glycoside and quercetin and kaempferol glycosides acylated with p-coumaric acid). The highest content of phenolics was found in peels.     

Phenolic compounds and chromatographic profiles of pear skins (Pyrus spp.)

A standardized profiling method based on liquid chromatography with diode array and electrospray ionization/mass spectrometric detection (LC-DAD-ESI/MS) was used to analyze the phenolic compounds in the skins of 16 pears (Pyrus spp.). Thirty-four flavonoids and 19 hydroxycinnamates were identified. The main phenolic compounds (based on peak area) in all of the pear skins were arbutin and chlorogenic acid. The remaining phenolics varied widely in area and allowed the pears to be divided into four groups. Group 1, composed of four Asian pears (Asian, Asian brown, Korean, and Korean Shinko), contained only trace quantities of the remaining phenolics. Yali pear (group 2) contained significant amounts of dicaffeoylquinic acids. Fragrant pear (group 3) contained significant quantities of quercetin glycosides and lesser quantities of isorhamnetin glycosides and the glycosides of luteolin, apigenin, and chrysoeriol. The remaining 10 pears (group 4) (Bartlett, Beurre, Bosc, Comice, D'Anjou, Forelle, Peckham, Red, Red D'Anjou, and Seckel) contained significant quantities of isorhamnetin glycosides and their malonates and lesser quantities of quercetin glycosides. Red D'Anjou, D'Anjou, and Seckel pears also contained cyanidin 3-O-glucoside. Thirty-two phenolic compounds are reported in pear skins for the first time.     

Migration of organophosphorus insecticides cyanophos and prothiofos residues from impregnated paper bags to Japanese apple-pears (Pyrus pyrifolia nakai cv. Nijisseiki)

Bags impregnated with the organophosphorus pesticides prothiofos and cyanophos in three levels were used to cover Japanese apple-pears to protect them from insects. The amounts of prothiofos residue in the bags collected 4 months after application ranged from 0 to 34% of the amounts (81, 148, and 333 microg) found in the bags prior to a bagging. The amounts of cyanophos residue in bags collected 4 months after application ranged from 11 to 29% of the amounts (335, 2860, and 3740 microg) present prior to a bagging. Amounts of prothiofos found in fruits after 4 months ranged from 0 to 0.076 ppm. Amounts of cyanophos found in fruits after 4 months ranged from 0 to 0.011 ppm. Results of the present study indicate that these two pesticides migrated from pesticide-impregnated bags to fruits during the growing season.     

Modulation of antioxidant compounds in organic vs conventional fruit (peach,Prunus persica L., and pear,Pyrus communis L.)

Despite the increasing interest in organic products, knowledge about how different levels of fertilization affect nutritionally relevant components is still limited. The concentration of polyphenols and the activity of polyphenoloxidase (PPO), together with the content in ascorbic acid, citric acid, and alpha- and gamma-tocopherol, were assayed in conventional and organic peach (Prunus persica L., cv. Regina bianca) and pear (Pyrus communis L., cv. Williams). 2-Thiobarbituric acid reactive substances and the tocopherolquinone/alpha-tocopherol ratio were used as markers of oxidative damage in fruits. A parallel increase in polyphenol content and PPO activity of organic peach and pear as compared with the corresponding conventional samples was found. Ascorbic and citric acids were higher in organic than conventional peaches, whereas alpha-tocopherol was increased in organic pear. The concentration of oxidation products in organic samples of both fruits was comparable to that of the corresponding conventional ones. These data provide evidence that an improvement in the antioxidant defense system of the plant occurred as a consequence of the organic cultivation practice. This is likely to exert protection against damage of fruit when grown in the absence of pesticides.     

编码日本梨树(Pyrus pyrifolia )花粉类β-1,3-葡聚糖酶蛋白的cDNA克隆与核苷酸序列

构建了日本梨树(Pyrus pyrifolia)花粉cDNA文库,发现了一个编码花粉管分泌的类β-1,3-葡聚糖酶蛋白(BGN-1)的cDNA(bgn-1)并测定了其序列.bgn-1由1408 bp组成,包括47 bp的5'-非翻译区,由1194bp组成并编码了397个氨基酸的ORF和167 bp的3'-非翻译区.3'-非翻译区含有1个NUE(AATTAA)和3个似FUE的基序,分别位于1369～1374(AATTAA)、1320～1325、1327～1332(TTTTTA)和1363～1368(TTTGGA).bgn-1编码的蛋白(BGN-1)与DDBJ中的植物β-1,3-葡聚糖酶的序列相似性范围为37%～59%,与3D结构已知的大麦β-1,3-葡聚糖酶(GⅡ)的序列相似性为39.7%.对GⅡ与BGN-1进行的疏水簇分析(HCA同源分为87.1%,＞75%的一般标准)和使用3D-PSSM软件进行的分析暗示,BGN-1的3D结构与大麦GⅡ同源性最大(≥95%的肯定度).BGN-1的信号肽长度为22 aa,成熟的BGN-1(375 aa)的理论分子量为4 0723 D,理论pI值为9.59,诊断氨基酸残基模式(D,L,S,L)与禾谷类的与生长相关的亚家族D的诊断氨基酸残基模式(D,L,S,Q)极相似.在BGN-1的C-端延伸区的位点352～367之间发现了1个功能不清,重复出现的ProXXPro结构.     

Free amino acid composition of quince (Cydonia oblonga Miller) fruit (pulp and peel) and jam

Twenty-one free amino acids present in several samples of quince fruit (pulp and peel) and quince jam (homemade and industrially manufactured) were analyzed by GC/FID. The analyses showed some differences between quince pulps and peels. Generally, the highest content in total free amino acids and in glycine was found in peels. As a general rule, the three major free amino acids detected in pulps were aspartic acid, asparagine, and hydroxyproline. For quince peels, usually, the three most abundant amino acids were glycine, aspartic acid, and asparagine. Similarly, for quince jams the most important free amino acids were aspartic acid, asparagine, and glycine or hydroxyproline. This study suggests that the free amino acid analysis can be useful for the evaluation of quince jam authenticity. It seems that glycine percentage can be used for the detection of quince peel addition while high alanine content can be related to pear addition.     

Quince (Cydonia oblonga Miller) fruit (pulp, peel, and seed) and Jam: antioxidant activity

To study the antioxidant activity of quince fruit (pulp, peel, and seed) and jam, methanolic extracts were prepared. Each extract was fractionated into a phenolic fraction and an organic acid fraction and was analyzed by high-performance liquid chromatography (HPLC)/diode array detection and HPLC/UV, respectively. Antiradical activities of the extracts and fractions were evaluated by a microassay using 1,1'-diphenyl-2-picrylhydrazyl. The phenolic fraction always exhibited a stronger antioxidant activity than the whole methanolic extract. Organic acid extracts were always the weakest in terms of antiradical activity, which seems to indicate that the phenolic fraction gives a higher contribution for the antioxidant potential of quince fruit and jam. The evaluation of the antioxidant activity of methanolic extracts showed that peel extract was the one presenting the highest antioxidant capacity. The IC50 values of quince pulp, peel, and jam extracts were correlated with the caffeoylquinic acids total content. Among the phenolic fractions, the seed extract was the one that exhibited the strongest antioxidant activity. The IC50 values of quince pulp, peel, and jam phenolic extracts were strongly correlated with caffeoylquinic acids and phenolics total contents. For organic acid fractions, the peel extract was the one that had the strongest antiradical activity. The IC50 values of quince pulp, peel, and jam organic acid fractions were correlated with the ascorbic acid and citric acid contents.     

Isolation and identification of insecticidal components from Citrus aurantium fruit peel extract

Three active components were identified by bioassay-guided fractionation of bitter orange ( Citrus aurantium L.) fruit peel petroleum ether extract. Silica gel fractionation of the extract yielded a fraction that inflicted up to 96% mortality to adults of the olive fruit fly Bactrocera oleae (Gmelin) three days post-treatment. Subsequent HPLC purification of the active fraction resulted in the isolation of three components, eluted in fractions F 222, F 224, and F 226, that induced adult mortality. Considering the data obtained from UV, FTIR, MS, and (1)H NMR spectra, they were identified as 7-methoxy-8-(3'-methyl-2'-butenyl)-2 H-1-benzopyran-2-one (osthol), 4-methoxy-7 H-furo[3,2- g]benzopyran-7-one (bergapten), and 4-(( E)-3'-methyl-5'-(3',3'-dimethyloxiran-2'-yl)pent-2'-enyloxy)-7 H-furo[3,2- g][1]benzopyran-7-one (6',7'-epoxybergamottin). Our results are in concordance with those reported in the literature and were further verified by direct comparison to authentic components. 6',7'-Epoxybergamottin was toxic when tested individually, while bergapten and osthol were found to act synergistically to 6',7'-epoxybergamottin.     

Changes in the volatile compounds and chemical and physical properties of Kuerle fragrant pear (Pyrus serotina Reld) during storage

Volatiles from stored Kuerle fragrant pears (Pyrus serotina Reld) were studied using high-resolution gas chromatography and the solid-phase microextraction (SPME) method of gas chromatography/mass spectrometry (GC/MS). The dominant components were hexanal, ethyl hexanoate, ethyl butanoate, ethyl acetate, hexyl acetate, ethanol, alpha-farnesene, butyl acetate, and ethyl (E,Z)-2,4-decadienoate. By using GC-olfactometry, it demonstrated that the volatile compounds from SPME were responsible for the aroma of the Kuerle fragrant pear. The levels of sugars, organic acids, and phenolic acids in Kuerle fragrant pears were investigated using high-performance liquid chromatography (HPLC). Fructose was the dominant sugar, followed by glucose and sucrose. With increasing storage time, sucrose levels decreased; however, changes in fructose and glucose levels were not remarkable. There was a slight decrease in flesh firmness during storage. The general soluble solids concentration (SSC) declined slightly after 5 months storage. Some aroma-related volatile components increased during storage, while others decreased, especially the esters. The organic acids and phenolic acids also changed. The flavor of the Kuerle fragrant pears was affected by the change of volatile compounds and changes in chemical and physical properties.     

Apple and pear peel and pulp and their influence on plasma lipids and antioxidant potentials in rats fed cholesterol-containing diets

The aim of this study was to assess the bioactive compounds of apple and pear peel and pulp in vitro and their influence on plasma lipids and antioxidant potentials in vivo. The antioxidant potentials measured by 1,1-diphenyl-2-picrylhydrazyl (DPPH), beta-carotene bleaching (beta-carotene), and nitric oxide inhibition radical scavenging (NO) tests in apple peel and pulp were significantly higher than in pear peel and pulp, respectively. The ethanol extract of apple peels showed the strongest inhibition of lipid peroxidation as a function of its concentration and was comparable to the antioxidant activity of butylated hydroxyanisole. The pear pulp extract had the weakest antioxidant ability, whereas other extracts such as apple pulp and pear peel were nearly equal. The antioxidant activities comprised contributions from polyphenols, phenolic acids, and flavonoids and correlated well with polyphenols and flavonoids. The correlation coefficients between polyphenols and antioxidant activities by DPPH, beta-carotene, and NO were as follows: 0.9207, 0.9350, and 0.9453. Contrarily, the correlation coefficient between the content of dietary fiber and the antioxidant activities test was low. The content of all studied indices in apple and pear peel was significantly higher than in peeled fruits (p < 0.05). Diets supplemented with fruit peels exercised a significantly higher positive influence on plasma lipid levels and on plasma antioxidant capacity of rats than diets with fruit pulps.     

Incongruence between RFLPs of chloroplast DNA and morphological classification in east Asian pear (Pyrus spp.)

Polymorphism of chloroplast DNA of 106 accessions of Pyrus (mainly east Asian accessions) was examined. Four haplotypes were observed with the combination of three independent restriction site mutations digested by EcoO109 I, Sal I, and Xba I, respectively. In the occidental pear accessions only the most plesiomorphic type was observed, whereas all four types appeared in the oriental pear accessions. This suggests that the oriental species of Pyrus and occidental ones may have evolved independently. The distribution of four haplotypes in the east Asian pear was quite incongruent with the species or infrageneric classification using mainly morphological characters. Considering the high crossability and much occurrence of suspected interspecific hybrids in wild populations, this disaccord is inferred to be the results of the hybridization and introgression between species.     

Composition of phenolic compounds in a Portuguese pear (Pyrus communis L. var. S. Bartolomeu) and changes after sun-drying

The composition of phenolic compounds of a Portuguese pear cultivar (Pyrus communis L. var. S. Bartolomeu) was determined by HPLC after thioacidolysis. The average concentration of phenolic compounds in pear harvested at commercial maturity stage was 3.7 g per kg of fresh pulp. Procyanidins were the predominant phenolics (96%), with a mean degree of polymerization (mDP) of 13-44; hydroxycinnamic acids (2%), arbutin (0.8%), and catechins (0.7%) were also present. The most abundant monomer in the procyanidin structures was (-)-epicatechin (99%), which was found as extension and terminal units; (+)-catechin (1%) was found only as a terminal unit. Sun-drying of these pears caused a decrease of 64% (on a dry pulp basis) in the total amount of native phenolic compounds. Hydroxycinnamic acids and procyanidins showed the largest decrease; the B2 procyanidin was not found at all in the sun-dried pear. Less affected were arbutin and catechins. In the sun-dried pear, the procyanidins with high mDP became unextractable in the solvents used.     

不同强度的运输振动对黄花梨的机械损伤及贮藏品质的影响

为了研究运输过程中不同强度的振动对黄花梨的机械损伤及储藏品质的影响,检测和比较了运输过程中卡车前后不同位置的振动情况以及对应位置装载的黄花梨的机械损伤情况,并对黄花梨运输后室温（23℃）储藏过程中硬度,果胶酶活性和果胶物质含量进行了检测。结果表明,车厢后部的振动加速度为1.91 m/s^2,显著高于车厢前部的振动加速度1.62 m/s^2（p〈0.05）。这导致了在车厢后部装载的梨的平均损伤个数和损伤表面积显著高于车厢前部（p〈0.05）;车厢后部装载的梨的果胶甲酯酶（PE）,多聚半乳糖醛酸酶（PG）活性较高,导致了与硬度有关的细胞壁果胶成分快速降低,引起了黄花梨果实的较快软化,说明较强的运输振动不但造成黄花梨严重的机械损伤,还影响运输结束后黄花梨的储藏品质。