Genetic Analysis of Leaf Length and Leaf Width in Bitter Gourd

[Objectives]To explore the genetic mechanism that leaf length and leaf width in bitter gourd has realistic guiding significance for formulating breeding strategy.[Methods]In this paper,the cross was made between CN19-1 and Thai4-6 and an F2segregation population was constructed.The genetic characteristics of leaf length and leaf width were analyzed by employing the major gene plus polygene mixed genetic model.[Results]The data analysis results demonstrated that the leaf length and leaf width of the F_(2) segregation population showed continuous distribution.The optimum model for leaf length genetic analysis was A-1,the additive effect value of the major gene was 3.1766,the dominant effect value was-3.1766,and the heritability was 74.51%.The optimum model for leaf width genetic analysis was B-1.The additive effect values of 2 pairs of major genes controlling the leaf width were 3.1917 and 0.9623,respectively.The dominant effect values were-1.3135 and-0.3463,respectively.The additive×additive interaction effect was-0.3591,the additive×dominant interaction effect was-0.2570,the dominant×additive interaction effect was 1.9916,the dominant×dominant interaction effect was 1.9686.The heritability of major genes was 96.67%.[Conclusions]This study is expected to provide a theoretical basis for the breeding of bitter gourd.

Quantitative Trait Loci Mapping for Leaf Length and Leaf Width in Rice cv.IR64 Derived Lines

The present study was conducted to identify quantitative trait loci （QTLs） for leaf size traits in IR64 introgression lines （INLs）. For this purpose, selected F2 populations derived from crosses between recurrent parent IR64 and its derived INLs, unique for leaf length and leaf width, were used to confirm QTLs. A total of eight QTLs, mapped on three chromosomes, were identified for the four leaf size traits in six F2 populations. A QTL for leaf length, qLLnpt-1, in HKL69 was identified around simple sequence repeat （SSR） marker RM3709 on chromosome 1. Two QTLs for flag leaf length, qFLLnpt-2 and qFLLnpt-4, in HFG39 were indentified on chromosomes 2 and 4, respectively. For flag leaf width, a QTL, qFLWnpt-4, in HFG39 was identified around RM17483 on chromosome 4. While another QTL for flag leaf width, qFLWnpt-1, in HFG27 was identified around RM3252 on chromosome 1. A QTL for leaf width, qLWnpt-2, in HKL75 was identified around RM7451 on chromosome 2. For leaf width, two QTLs, qLWnpt-4a, qLWnpt-4b, in HKL48 and HKL99 were identified around RM7208 and RM6909, respectively on chromosome 4. Results from this study suggest the possibilities to use marker-assisted selection and pyramiding these QTLs to improve rice water productivity.

不同叶长·叶宽和单叶重对广元烤后烟叶质量的影响

为明确广元优质烤后烟叶适宜的叶长、叶宽和单叶重范围,为广元地区生产优质烤烟提供数据支撑,2021年在四川省广元市剑阁县5个收购线分别挑选10户种植水平具有代表性的烟农,取X2F、C2F、C3F和B2F等级烟叶样品各2 kg,按等级划分不同叶长、叶宽和单叶重进行烟叶质量评价。结果表明:随着叶长的增加,X2F、B2F等级烟叶总糖、还原糖含量呈减少趋势。随着叶长的增加,C3F烟叶烟碱、钾含量升高;随着叶宽的增加,C3F烟叶总糖、还原糖含量逐渐增加。X2F和C3F等级烟叶随着单叶重的增加,总糖含量逐渐增加,钾含量减少。随着烟叶叶宽和单叶重的增加,X2F烟叶外观质量总分均表现为先增加后降低。随着叶长的增加,C2F和C3F烟叶外观质量总分均表现为逐渐增加,外观质量总分从高到低依次为>75 cm、>65~75 cm、>55~65 cm、≤55 cm。随着叶长、叶宽和单叶重的增加,C2F、C3F、B2F烟叶感官质量得分大多表现为先上升后下降。随着叶长、叶宽的增加,C2F、B2F烟叶感官质量得分表现为先上升后下降。当X2F烟叶叶长控制在>50~60 cm、叶宽控制在>15~19 cm、单叶重控制在>7~11 g时,X2F烟叶综合品质较好;当C2F烟叶叶长控制在>55~65 cm、叶宽控制在>15~23 cm、单叶重控制在>9~13 g时,C2F烟叶综合品质较好;当C3F烟叶叶长控制在>65~75 cm、叶宽控制在>15~23 cm、单叶重控制在>8~12 g时,C3F烟叶综合品质较好;当B2F叶长控制在>55~65 cm、叶宽控制在>15~23 cm、单叶重控制在>9~15 g时,B2F烟叶综合品质较好。

全基因组关联分析(GWAS)鉴定水稻氮素利用效率候选基因

【目的】挖掘水稻氮高效的种质和基因资源,揭示其分子机制和遗传效应,是当前水稻氮素利用效率(NUE)研究的重要内容和目标。【方法】为了鉴定与水稻NUE相关的变异位点和候选基因,我们收集了190份亚洲稻为关联群体,通过质量过滤和群体频率过滤筛选出3,934,195个高质量的单核苷酸多态性(SNPs)位点,在大田条件下设置低氮(N_(1),90kg/hm^(2))和常规氮(N_(2),180kg/hm^(2))水平,成熟期调查水稻剑叶叶宽在低氮和常规氮处理下的表型数据,结合FarmCPU和MLM模型进行全基因组关联分析(GWAS)。【结果】通过植株在不同氮水平下的叶宽表型数据,计算该群体在低氮和常规氮水平下的剑叶宽表型比值Q(N_(1)/N_(2)),Q值呈现正态分布的特征。对Q值进行全基因组关联分析,在12条染色体上共鉴定了100个显著位点,确定了39个候选QTLs,包括已克隆NUE相关基因OsNR1.2和OsNAC42。进一步鉴定了候选基因OsNR1.2和OsNAC42的优异单倍型和潜在的优势单倍型组合,为水稻NUE的改良提供了有价值的资源和信息。【结论】利用GWAS和单倍型分析,揭示了水稻剑叶叶宽在不同氮处理下的遗传基础,鉴定了与NUE相关的候选QTLs和基因,包括OsNR1.2和OsNAC42。通过组合单倍型分析,鉴定了两个基因的优势单倍型组合,为水稻NUE的改良提供了有价值的资源和信息。

Allometric models for leaf area and leaf mass predictions across different growing seasons of elm tree(Ulmus japonica)

Convenient and effective methods to determine seasonal changes in individual leaf area (LA) and leaf mass (LM) of plants are useful in research on plant physiology and forest ecology. However, practical methods for estimating LA and LM of elm (Ulmus japonica) leaves in different periods have rarely been reported. We collected sample elm leaves in June, July and September. Then, we developed allometric models relating LA, LM and leaf parameters, such as leaf length (L) and width (W) or the product of L and W (LW). Our objective was to find optimal allometric models for conveniently and effectively estimating LA and LM of elm leaves in different periods. LA and LM were significantly correlated with leaf parameters (P < 0.05), and allometric models with LW as an independent variable were best for estimating LA and LM in each period. A linear model was separately developed to predict LA of elm leaves in June, July and September, and it yielded high accuracies of 93, 96 and 96%, respectively. Similarly, a specific allometric model for predicting LM was developed separately in three periods, and the optimal model form in both June and July was a power model, but the linear model was optimal for September. The accuracies of the allometric models in predicting LM were 88, 83 and 84% for June, July and September, respectively. The error caused by ignoring seasonal variation of allometric models in predicting LA and LM in the three periods were 1-4 and 16-59%, respectively.

Dosimetric evaluation of VMAT radiation therapy technique for breast cancer after conservative surgery based on three different types of multileaf collimators

Objective Radiotherapy combined with conservative surgery plays an important role in the treatment of early-stage breast cancer. Volumetric modulated arc therapy(VMAT) has been introduced into clinical practice. The purpose of this study was to investigate the dosimetric effects of different multileaf collimators(MLC) on VMAT radiotherapy plans for treating breast cancer.Methods Fifteen breast cancer patients who were treated using a conventional technique in our department were selected to participate in this retrospective analysis. VMAT plans based on three types of Elekta MLCs [Beam Modulator(BM) with 4-mm leaf width, Agility with 5-mm leaf width and MLCi2 with 10-mm leaf width] were independently generated for each patient. Plan comparisons were performed based on dose-volume histogram(DVH) analysis including dosimetric parameters such as the homogeneity index(HI), conformity index(CI), Dmax, Dmin, and Dmean for the planning treatment volume(PTV), in addition to dose-volume parameters for the organs at risk(OARs). The delivery efficiency of the three types of MLCs was compared in terms of the beam delivery time and the monitor units(MUs) per fraction for each plan. Results Both target uniformity and conformity were improved in plans for Agility and BM MLC compared with the plan using MLCi2. The mean HI decreased from 1.14 for MLCi2 to 1.13 for BM and 1.10 for Agility, while the mean CI increased from 0.68 for MLCi2 to 0.73 for BM and 0.75 for Agility. Furthermore, at both low and high dose levels, smaller volumes of ipsilateral lung, heart, contralateral lung, and breast were irradiated with Agility MLC than with the other two types of MLCs. The delivery time with Agility MLC was reduced by 10.8% and 32.1%, respectively, compared with that for MLCi2 and BM.Conclusion Our results indicate that the Agility MLC exhibits a dosimetric advantage and a significant improvement in delivery efficiency for the treatment of breast cancer using VMAT.

基于实例分割技术的草莓叶龄及冠幅表型快速提取方法

[目的/意义]为解决高通量草莓叶龄及冠幅提取问题,提出一种基于移动式表型平台和实例分割技术的高通量表型提取方法。[方法]利用小型移动式表型平台对温室内盆栽草莓植株的俯拍图像进行数据获取,并利用改进型Mask R-CNN(Convolutional Neural Network)模型对图像进行处理,以此获取草莓植株叶龄信息。首先利用带有分组注意力模块的Split-Attention Networks(ResNeSt)骨干网络替换原有网络,从而提高图像特征信息提取精度和执行效率。在训练时,利用Mosaic方法对草莓图像进行数据增强,并且使用二元交叉熵损失函数对原本的交叉熵分类损失函数进行优化,以达到更好的植株与叶片的检测准确度。在此基础上,对训练结果进行后处理,利用标定比值对冠幅进行计算。[结果和讨论]该方法能够在ResNeSt-101骨干网络下,实现80.1%的掩膜准确率和89.6%的检测框准确率,并且能够以99.3%的植株检测正确率和98.0%的叶片数量检出率实现高通量的草莓叶龄估算工作。而模型推理后草莓植株南北和东西向冠幅测试值与真实值相比误差均低于5%的约占98.1%。[结论]该方法有着较高的鲁棒性,能够为智慧农业下高通量植物表型获取与解析工作提供技术支持。

一种新型航空发动机涡轮叶片叶冠啮合面的修复技术

以一种新型航空发动机涡轮叶片叶冠的修复过程为实例,对其修复过程进行了分析,对修复过程中存在的问题及解决方法进行了论述,对修复过程所用夹具、测具进行了简单介绍,优化了包含热加工和冷加工的工艺过程参数,成功完成了新型叶片的叶冠修复。

水稻和陆稻分化相关性状的QTL分析及水旱不同栽培条件下连续选择的影响

本研究以来自云南的地方品种Ch5-10和Ch6-11为亲本,后代用SSD方法而得到的RIL9群体为试验材料,对水、陆稻差异性状(始穗期、剑叶宽、株高等)进行了考察,并利用SSR分子标记构建遗传连锁图谱,进行了各性状的QTL定位;在自然和人工选择的过程中,栽培稻无论是形态上还是基因组上,都发生多种多样的变化。利用F 2群体(父、母本和前述的SSD群体相同)采用Bulk混合选择的方法,在F 4代开始进行水、旱田两种条件下种植,以模拟水陆稻的分化条件,经过5代的种植后繁殖成株系,分别得到CA、CB两个群体。对这两个群体的水陆稻差异性状(始穗期、最高分蘖数、有效分蘖数、剑叶宽、株高等)进行了考察。结果表明,利用SSD方法而得到的RIL9群体对始穗期、剑叶宽、株高等3个性状进行QTL分析,两年共检测到19个QTL,分别位于1,2,3,7,8,9,11号染色体上。其中株高qPH-1效应最大,贡献率为22%(2009年安徽),16%(2009年北京),16%(2010年北京),表现为来自亲本Ch5-10的等位基因增加株高;利用Bulk方法而得到的CA群体(经过水田筛选5代、289个株系)和CB群体(经过旱田筛选5代、332个株系),考察其最高分蘖数、有效分蘖数、始穗期、株高、剑叶宽等5个性状。2009年安徽和北京两地试验发现:两群体间除安徽始穗期和北京剑叶宽差异不显著外,其他性状差异均达到极显著水平。根据氯酸钾抗性和低温发芽力的QTL定位结果,选择qSLtr-2、qSLratio-2、qRL28-2-1和qRL28-4附近的标记RM166、RM5472、RI05751和RM5979,及未定位到QTL的标记RM259对CA群体和CB群体进行基因型分析,两群体间t测验结果表明,RM5472、RI05751和RM5979差异均达到极显著水平,RM259和RM166差异不显著。说明在人工模拟水、陆稻选择的条件下这2个群体有了明显的分化。

烟草叶宽性状主效QTL定位及育种评价

为研究烟草叶宽性状调控的遗传规律,定位其主效QTL位点,利用烟草SNP芯片对构建的重组自交系(Recombinant Inbred Lines, RILs)群体(小黄金1025×Beinhart1000-1)进行基因分型,并使用IciMapping 4.2软件的ICIM-ADD方法在全基因组范围内定位到6个与叶宽性状相关的QTL,分别位于2、4、9、13、17和20号连锁群上,可以解释2.9%~36.8%的表型遗传变异;其中qMLW20-1可解释36.8%的表型变异,为主效基因。以K326为轮回亲本、Samsun为主效基因qMLW20-1供体亲本构建染色体片段代换系评估烟草叶宽主效QTL的遗传效应,结果表明,导入qMLW20-1主效基因能显著提高烟叶叶宽,其中G3材料显著提高了烟叶钾含量,感官质量等其他重要性状与对照无显著性差异,未携带不良性状基因,具有较好的育种利用价值。研究结果为克隆叶宽性状主效基因和进行分子改良奠定了基础。

玉米叶宽的QTL定位及全基因组选择分析

【目的】分析控制玉米叶宽的关键QTL位点,为选育具有理想株型的玉米奠定基础。【方法】以玉米自交系B73和郑58为亲本构建F 2∶3家系,采用液相48k探针捕获技术检测基因型,对多环境下玉米叶宽表型进行QTL定位和全基因组选择。【结果】叶宽在基因型、环境、基因型与环境的互作变异项都具有显著差异,遗传力为0.39。共检测到12个穗位叶宽相关QTL位点,分别位于第1、3、4、5、8和10号染色体,表型贡献率为3.75%~16.17%。位于bin 1.06和bin 5.01的2个QTL在多环境下被检测到,具有环境稳定性,其中位于bin 5.01的QTL为主效位点,可用于精细定位研究。当SNP标记个数为300、训练群体占总群体50%时即可得到较好的预测精度。【结论】玉米叶宽是由主效多基因控制的,全基因组选择可以加速玉米叶宽性状的选育效率。

烤烟新品系LY1306烘烤前后叶片变化和失水率研究

为研究烤烟新品系LY1306烘烤前后叶片变化情况,以秦烟96为对照,采用智能烤箱,分3次取下、中、上各部位烟叶,挂牌标记,烘烤前后分别测量叶长、叶宽和单叶质量,计算叶片失水率。结果表明,烘烤后,LY1306上、中、下部叶长分别减少10.93%、12.60%、11.51%,叶宽分别减少20.58%、24.56%、21.34%,叶长和叶宽失水率均小于秦烟96;2个品种(系)叶片干鲜比均表现为上部>中部>下部,LY1306上、中、下部叶片干鲜比均大于秦烟96。

Interactive Effects of Elevated [CO₂] and Soil Water Stress on Leaf Morphological and Anatomical Characteristic of Paper Birch Populations

The leaf morphological and stomatal characteristics of four paper birch (Betula papyrifera Marsh) populations, grown at four treatment conditions of carbon dioxide [CO2] and soil water levels were investigated to determine whether future increases in atmospheric [CO2] and water deficit affected the leaf characteristics. The populations from Cussion Lake, Little Oliver, Skimikin and Wayerton were grown for 12 weeks under ambient (360 ppm) and elevated (720 ppm) [CO2] at both high and low water levels. The populations significantly differed in leaf area and stomatal characteristics due to the interaction effects of [CO2], water levels and population differences. Most leaf morphological characteristics and stomatal density varied due to the effects of [CO2] and/or populations, but not due to the effect of water levels. Although elevated [CO2] alone barely affected stomatal area of the birch populations, simultaneous elevated [CO2] at both water levels had stimulated stomatal characteristics within and among the populations. Overall, elevated [CO2] reduced leaf area and increased stomatal density;and low water level resulted in smaller stomatal area, pore area and guard cell width. However, the populations responded differently to an increase in [CO2] and water levels. All populations showed plastic responses with respect to [CO2] and water levels either by decreasing stomatal area under low water level or by increasing stomatal density under elevated [CO2]. Hence, integration between and within leaf characteristics had helped paper birch populations maintain balance between [CO2] gain and water loss.

小麦旗叶面积相关性状的全基因组关联分析

为了挖掘控制小麦旗叶面积相关性状的基因位点,本研究以215份适宜在冀中北地区种植的小麦品种(系)为研究材料,分别于2020—2022年在河北省唐山市种植,利用小麦16K高密度SNP芯片进行全基因组扫描,并结合小麦旗叶面积相关性状(旗叶宽、旗叶长、旗叶面积)进行全基因组关联分析。结果表明,有23个与小麦旗叶宽显著相关的SNP位点,其中位于1A、2B(6)、3A、4A、4B、5A、5B(5)、5D、6B染色体上的18个SNP位点(区段)在多个环境中被检测到;两个与旗叶长显著关联的SNP位点未在多个环境中被检测到;在关联出的21个与旗叶面积显著关联的SNP位点(区段)中,位于2B、5A染色体的两个位点(区段)在多个环境中被检测到。有13个SNP位点(区段)表现“一因多效”,分布于1A、2B(3)、3A、4A、5A(2)、5B(3)、5D、7A,这些位点在与旗叶面积显著关联的同时,也与旗叶宽或旗叶长呈显著关联。

云南龙陵地区不同燕麦品种生产性能比较

[目的]筛选出适宜在云南龙陵及其相似地区种植的饲用燕麦品种。[方法]选用8个燕麦品种,即燕麦01(01牧王)、燕麦02(02燕王)、燕麦03(03爱沃)、燕麦04(04贝勒2号)、燕麦05(05魅力)、燕麦06(06抢手)、燕麦07(07雷神)和燕麦08(08 esk),于2016年4月在云南龙陵种植,对其单株分蘖数、株高、旗叶长、旗叶宽、轮层数和产量进行品种比较试验。[结果]燕麦02单株分蘖数最多,为7.5;其余燕麦种质的分蘖都低于7.5。燕麦02植株高度最高,达到154.18 cm;燕麦08最矮,为112.88 cm。燕麦01旗叶长最长,为50.48 cm;燕麦05最短,为29.11 cm。燕麦03旗叶宽最宽,为2.34 cm;燕麦07旗叶宽最窄,为1.04 cm。燕麦03轮层数最多,为5.25个;燕麦04最少,为4.25个。燕麦02产量最高,为7391.37 kg/666.7 m^(2);燕麦05产量最低,为4818.59 kg/666.7 m2;燕麦02、燕麦03、燕麦06和燕麦08的产量高于平均水平。[结论]燕麦02、燕麦03、燕麦06和燕麦08的生产性能较好,适宜在龙陵及其相似地区推广种植。

3种山核桃属植物叶面积预估模型构建

以山核桃、湖南山核桃和美国山核桃3种经济价值高的山核桃属植物为研究对象,通过方差分析对比3个树种叶片的形态差异,利用Pearson相关分析筛选最优自变量参数,采用线性回归法与最小二乘法分别构建3个树种及整体的小叶面积(LA)和复叶面积(CLA)与叶形态学指标间的预估模型,并通过决定系数(R^(2))、均方根误差(RMSE)、赤池信息量准则(AIC)和预测精度(FA)评估模型的优劣,最后检验预估模型的适用性。结果表明:3树种间叶片形态参数差异显著,尤其LA变异系数最大,达75.08%;Pearson相关分析显示,3树种均以小叶长宽积(P_(1))和复叶长宽积(P_(2))与相应叶面积的相关系数为最高;预估山核桃、湖南山核桃、美国山核桃和整体的LA最优模型分别为LA=0.7125 P_(1)^(0.9816)、LA=0.6346 P_(1)+1.3891、LA=0.6277 P_(1)^(1.0012)和LA=0.6466 P_(1)+0.1341;预估CLA的最优模型分别为CLA=0.2931 P_(2)+9.1523、CLA=0.3851 P_(2)-33.95、CLA=0.316 P_(2)+16.697和CLA=0.2903 P_(2)+28.53。构建的3树种LA和CLA最优模型平均FA分别为95.85%和92.67%,且模型检验的平均FA分别为96.04%和95.29%,表明构建的预估模型是可靠的,可满足供试树种叶片面积预估的要求。

基于关联分析的水稻剑叶宽基因定位与分析

叶形是影响粳稻光合作用和碳水化合物积累的重要因素之一,而叶宽是决定水稻叶形的核心性状之一。挖掘和利用新的叶宽相关基因/QTL可以进一步丰富分子育种理论,提升叶宽性状遗传改良的效率。本研究利用295份粳稻品种的自然群体,于2020年和2021年对各品种的剑叶宽进行考察。结合高通量重测序获得的788 396个高质量多态性SNP,对粳稻剑叶宽相关性状进行全基因组关联分析(GWAS),共检测到45个关联SNPs,分布在水稻的12条染色体上,表型贡献率范围为8.61%~15.76%。其中,qFL10在两年间被重复检测到,定位区间在10.11 Mb~10.23 Mb,此区段内包含15个基因。

水稻叶片伸长过程的模拟模型

水稻叶片生长过程的动态模拟,对于实现水稻生长的数字化和可视化表达具有重要的理论意义和应用价值。本研究以4个不同株型的水稻品种为试验材料,通过对水分试验、氮素试验条件下不同叶位叶片的叶长、叶宽特征进行连续观测,综合分析了水稻叶片几何形态指标随生育进程和环境条件的变化规律,进而构建了水稻叶片生长过程的动态模拟模型。模型采用Logistic方程描述了水稻主茎及分蘖叶片随生长度日(GDD)的动态伸长过程;利用二次曲线描述了叶宽随GDD的动态变化过程;分别用幂函数和一元二次方程描述了叶形(不同叶长处的叶宽)的动态变化过程;另外,以叶片氮素和水分因子分别描述了不同水氮水平对叶片形态建成过程的定量影响。同时利用独立的水稻田间试验资料对所建模型进行了测试和检验,主茎和分蘖动态变化叶长、叶宽的均方根差(RMSE)分别为3.6cm、3.96cm以及3.15cm、3.56cm。表明本模型对水稻叶片的动态伸长过程具有较好的预测性和解释性。

基于生物量的水稻叶片主要几何属性模型研究

【目的】构建基于生物量的水稻叶片主要几何属性模型,为水稻株型设计与调控提供理论依据。【方法】以两优108、86优8、南粳43及扬稻6号为材料,设置品种、氮肥与密度田间试验,观测水稻主茎不同叶位叶片长度和宽度,分析了水稻主茎叶片长和宽的关系、比叶重(SLW)随叶位的变化规律,以及水稻叶片干重与叶长和叶宽的关系,构建基于生物量的水稻叶片主要几何属性模型。【结果】叶长与叶宽的关系可用幂指数方程表达,比叶重随叶位呈二次曲线变化。采用独立的试验资料检验模型,主茎叶片叶长、叶宽模拟值与实测值的根均方差(RMSE)分别为2.55和0.06cm。【结论】几何属性模型可较好地模拟不同生长条件下水稻主茎不同叶位叶片的主要几何属性,为生长模型与形态结构模型的结合奠定了基础。

利用RNA-Seq发掘玉米叶片形态建成相关的调控基因

【目的】叶片宽度和长度等叶形特性是决定植株形态,进而影响种植密度的重要农艺性状,通过转录组测序技术筛选并挖掘玉米叶片形态建成相关的代谢路径及调控基因,为深入认识叶片发育的分子机理和鉴定叶宽、叶长候选基因奠定基础。【方法】以极端窄叶自交系NL409和宽叶自交系WB665为材料,利用RNA-Seq技术鉴定7叶期第七片叶近基部的差异表达基因(DEGs),通过生物信息学分析,筛选与叶片发育密切相关的代谢通路,利用qRT-PCR验证不同激素路径叶形相关基因的表达结果,并结合启动子区域的序列差异挖掘叶形功能基因。【结果】分析对照(WB665)和样品(NL409)高通量测序结果,在叶宽形成关键部位共筛选出5 199个DEGs,其中,2 264(43.55%)个基因表达上调,2 935(56.45%)个基因下调表达,下调基因明显多于上调基因;GO功能富集分析表明,差异基因主要富集在细胞膜相关的细胞组分中,涉及代谢过程和细胞响应刺激;KEGG富集分析表明,差异基因主要参与到核糖体、植物激素信号转导、苯丙烷类代谢、乙醛酸和二羧酸代谢等过程,其中核糖体、植物激素信号转导、鞘脂类代谢下调表达基因较多的路径与叶片发育密切相关。核糖体路径富集到多个PRS(PRESSED FLOWER)基因,分析发现PRS13(PFL2)可能在调控窄叶发育过程中发挥重要作用。鞘脂代谢路径富集的基因几乎全部下调表达,引起抑制叶片发育的AP1(APETALA1)类和MAPK(Mitogen-Activated Protein Kinase)类基因上调,以及促进叶片发育的LFY(LEAFY)下调,与窄叶发育受抑制的表型一致。植物激素信号转导路径富集到的油菜素内酯(BR)响应基因和赤霉素(GA)代谢基因下调,细胞分裂素(CTK)和大部分生长素(Auxin)响应基因上调,与窄叶中DELLA蛋白基因上调表达,抑制GA并促进CTK基因表达的作用模式一致。通过qRT-PCR对18个叶片发育相关基因进行分析,结果表明,其表达趋势与转录组结果一致,分析发现BR相关的ROT3、Auxin相关的NAL7-like、AGO7-like以及TCP类转录因子CYC/TB1等基因与窄叶的形成密切相关。【结论】明确了一些与玉米叶片发育密切相关的代谢路径,还发现植物激素间的动态平衡对叶片发育有着重要影响,尤其是生长素与油菜素内酯、细胞分裂素与赤霉素之间的相互作用对调控叶片形态可能发挥重要作用。