通过多变量分析研究甜樱桃和酸樱桃基因型的花粉形态和活力。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Vera Rakonjac, Dragan Nikolić, Slavica Čolić, Ivana Glišić, Milena Đorđević, Melpomena Popovska, Sanja Radičević
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引用次数: 0

摘要

本研究的目的是通过扫描电子显微镜(SEM)检查一些甜樱桃和酸樱桃基因型花粉粒的尺寸和表面形态,作为另一种鉴定工具。此外,还测定了体外花粉发芽率和花粉管长度,作为其存活率的指标。对 10 个甜樱桃(Prunus avium L.)和 7 个酸樱桃(Prunus cerasus L.)基因型进行了观察。所有基因型的花粉粒都呈三多瓣状,花粉外皮呈条纹状,并有较多平行的纵脊。在大多数花粉粒特征和外果皮纹饰方面,品种内和品种间的基因型存在显著差异。在甜樱桃和酸樱桃中,花粉粒长度的变异最大(CV = 15.0% 和 12.9%)。甜樱桃基因型的体外花粉萌发率和花粉管长度分别为 1.4% 至 51.5% 和 360.4 至 669.3 μm,而酸樱桃基因型的体外花粉萌发率和花粉管长度分别为 15.5% 至 37.0% 和 96.3 至 960.2 μm。相关分析结果表明,体外花粉发芽率与花粉长度/花粉宽度(L/W)比(r = .640)和沟宽(r = .588)呈正相关,与脊数(r = -.517)呈负相关,而花粉管长度与所研究的任何特征均无显著相关。主成分分析(PCA)显示,花粉长度、花粉宽度、长宽比、花柱长度、中柱宽度和脊宽是区分所研究基因型的相关工具。对花粉粒进行的测量并未显示出单独的巨大差异,但将所有特征综合考虑时,每个基因型的花粉都表现出独特的形态。散点图上的分布显示,根据花粉形态特征,甜樱桃和酸樱桃基因型之间存在相当大的差异,这导致它们被分为两个不同的组别。这证明了根据扫描电镜测定的花粉形态特征区分樱桃品种的能力。为了提高物种内基因型的鉴别能力,在后续工作中应结合花粉超微结构分析、形态标记和分子标记。研究重点甜樱桃和酸樱桃的花粉特征存在显著差异。花粉形态在分类区分中的意义。扫描电镜研究对分类鉴定的意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of pollen morphology and viability of sweet and sour cherry genotypes by multivariate analysis.

The aim of this study was to examine the dimensions and surface morphology of pollen grains of some sweet and sour cherry genotypes through scanning electron microscopy (SEM) as an additional alternative identification tool. In vitro pollen germination and pollen tube length as indicators of their viability were determined as well. Observations were carried on 10 sweet cherry (Prunus avium L.) and 7 sour cherry (Prunus cerasus L.) genotypes. All genotypes had prolate, tricolpate pollen grains, and striate exine ornamentation, with more parallel longitudinal ridges. Significant differences among genotypes within species and between species were found for most pollen grain characteristics and exine ornamentation. In both sweet and sour cherry the largest variability was recorded for colpus length (CV = 15.0% and 12.9%, respectively). For sweet cherry genotypes, in vitro pollen germination and pollen tube length ranged between 1.4% to 51.5% and 360.4 to 669.3 μm respectively, while for sour cherries they ranged from 15.5% to 37.0% and 96.3 to 960.2 μm, respectively. The results of the correlation analysis showed that in vitro pollen germination correlated positively with pollen length/pollen width (L/W) ratio (r = .640) and furrow width (r = .588), and negatively with the number of ridges (r = -.517), while pollen tube length was not significantly correlated with any of the studied characteristics. Principal component analysis (PCA) revealed that pollen length, pollen width, L/W ratio, colpus length, mesocolpium width, and ridge width are relevant tools to discriminate among the studied genotypes. The measurements made on pollen grains did not reveal individually big differences, but when all features were considered together, the pollen of each genotype exhibited a unique pattern. The distribution on the scatter plot showed considerable variation among sweet and sour cherry genotypes based on pollen morphological characteristics, which led to their distribution into two separate groups. This demonstrates the ability to distinguish cherry species based on pollen morphological characteristics determined by SEM. To improve discriminative ability for genotypes within species combination between pollen ultrastructural analysis, morphological and molecular markers is desirable, in subsequent work. RESEARCH HIGHLIGHTS: Significant differences in pollen characteristics between sweet and sour cherry. Significance of pollen morphology in taxonomic differentiation. Significance of SEM studies for the taxonomic identification.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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