甘蔗(Saccharum officinarum L.)品种遗传差异的AFLP分子标记分析

采用AFLP技术 ,从 6 4对引物中筛选出 5对带型分布均匀、多态性丰富且分辨能力强的引物 ,对两个在生产上广泛推广应用的甘蔗品种的AFLP指纹图谱进行分析 ,计算了两品种间的遗传相似性和遗传距离。结果表明 ,5对引物在 2个甘蔗品种间均存在显著的差异 ,其中多态性位点占总扩增位点的 10 2 % ,区分率达 10 0 %。这对应用AFLP技术鉴定甘蔗品种的真伪提供了依据。本文还对甘蔗AFLP分析体系的关键技术以及银染的安全性和可靠性进行了讨论。

Implementation and Evaluation of Certain Properties of a Polymer Matrix Composite Material Reinforced by Fibrous Residues of <i>Saccharum officinarum</i>in View of an Applicability Orientation

This study examines the implementation and characterization of a polymer matrix composite material reinforced by sugarcane residues. The aim of the study is to enhance the abundantly produced sugarcane bagasse in the form of residues in the processing plants of said sugar cane. The composite material developed takes into account the size parameters and mass load rate of the reinforcement, the variations of which are between 2.5 mm and 4 mm respectively for the first parameter and 10% to 25% for the second. The load on the test tube during the test has a random orientation. The composite is polyester matrix. The cold compression moulding technique was used in the production of the various samples. Physical properties such as the rate of water absorption and the density of the composite are assessed. The three-point bending tests are carried out with the aim of inducing Young’s modulus from the elaborate samples. Analysis of physical properties shows that water absorption increases with the rate of residue load. The average water absorption rate of bagasse fibres is estimated at 8% for the 2.5 mm fiber size and 12% for the 4 mm fiber size for all composites. Mechanical characterization by bending tests reveals a fragile behavior of the samples tested. Young’s modulus decreases when the load rate of fibrous residues increases regardless of the size of the fibers.

Radiation-induced in vitro mutagenesis system for salt tolerance and other agronomic characters in sugarcane(Saccharum officinarum L.)

Gamma ray-induced in vitro mutagenesis and selection for salt(NaC l) tolerance were investigated in sugarcane(Saccharum officinarum L.). Embryogenic callus cultures were irradiated(10 to 80 Gy) and subjected to in vitro selection by exposure of irradiated callus to NaC l(0, 50, 100,150, 200, and 250 mmol L-1). Increasing NaC l concentrations resulted in growth reduction and increased membrane damage. Salt-selected callus lines were characterized by the accumulation of proline, glycine betaine, and Na+and K+concentration. Higher accumulation of proline and glycine betaine was observed in NaC l stressed callus irradiated at 20 Gy. Na+concentration increased and K+concentration decreased with increasing salt level. Irradiated callus showed50–60% regeneration under NaC l stress, and in vitro-regenerated plants were acclimatized in the greenhouse, with 80–85% survival. A total of 138 irradiated and salt-selected selections were grown to maturity and their agronomic performance was evaluated under normal and saline conditions. Of these, 18 mutant clones were characterized for different agro-morphological characters and some of the mutant clones exhibited improved sugar yield with increased Brix%,number of millable canes, and yield. The result suggest that radiation-induced mutagenesis offers an effective way to enhance genetic variation in sugarcane.

Genetic analysis for brix weight per stool and its component traits in sugarcane (Saccharum officinarum)

Brix weight per stool (BW) of sugarcane is a complex trait, which is the final product of a combination of many components. Diallel cross experiments were conducted during a period of two years for BW and its five component traits, in- cluding stalk diameter (SD), stalk length (SL), stalk number (SN), stalk weight (SW), and brix scale (BS) of sugarcane. Phenotypic data of all the six traits were analyzed by mixed linear model and their phenotype variances were portioned into additive (A), dominance (D), additive×environment interaction (AE) and dominance×environment interaction (DE) effects, and the correlations of A, D, AE and DE effects between BW and its components were estimated. Conditional analysis was employed to investigate the contribution of the components traits to the variances of A, D, AE and DE effects of BW. It was observed that the heritabilities of BW were significantly attributed to A, D and DE by 23.9%, 30.9% and 28.5%, respectively. The variance of A effect for BW was significantly affected by SL, SN and BS by 25.3%, 93.7% and 17.4%, respectively. The variances of D and DE effects for BW were also significantly influenced by all the five components by 5.1%～85.5%. These determinants might be helpful in sugarcane breeding and provide valuable information for multiple-trait improvement of BW.

Expression of the Grifola frondosa Trehalose Synthase Gene and Improvement of Drought-Tolerance in Sugarcane （Saccharum officinarum L.）

Trehalose Is a nonreduclng dlsaccharlde of glucose that functions as a protectant In the stabilization of blologlcal structures and enhances stress tolerance to abiotic stresses in organisms. We report here the expression of a Grlfola frondosa trehalose synthase （TSase） gene for Improving drought tolerance In sugarcane （Saccharum offlclnarum L.）. The expression of the transgene was under the control of two tandem copies of the CaMV35S promoter and transferred Into sugarcane by Agrobacterium tumefaciens EHA105. The transgenlc plants accumulated high levels of trehalose, up to 8.805-12.863 mg/g fresh weight, whereas It was present at undetectable level in nontransgenlc plants. It has been reported that transgenlc plants transformed with Escherlchla coil TPS （trehalose-6-phosphatesynthase） and/or TPP （trehalose-6-phosphate phosphatase） are severely stunted and have root morphologlc alterations. Interestingly, our transgenlc sugarcane plants had no obvious morphological changes and no growth Inhibition in the field. Trehalose accumulation in 35S-35S：TSase plants resulted In In- creased drought tolerance, as shown by the drought and the drought physiological Indexes, such as the rate of bound water/free water, plasma membrane permeability, malondlaldehyde content, chlorophyll a and b contents, and activity of SOD and POD of the excised leaves. These results suggest that transgenlc plants transformed with the TSase gene can accumulate high levels of trehalose and have enhanced tolerance to drought.

用AFLP分子标记技术鉴别甘蔗(Saccharum of ficinarum L.)品种

本研究采用AFLP技术 ,从 6 4对引物中筛选出 5对带型分布均匀、多态性丰富且分辨能力强的引物 ,对两个在生产上广泛推广应用的甘蔗品种的AFLP指纹图谱进行分析 ,计算了两品种间的遗传相似性和遗传距离。结果表明 ,5对引物在 2个甘蔗品种间均存在显著的差异 ,其中多态性位点占总扩增位点的 10 2 % ,区分率达 10 0 %。研究结果对生产上应用AFLP技术鉴定甘蔗品种的真伪性提供了依据。本文对甘蔗AFLP分析体系的关键技术以及银染技术的安全性和可靠性进行了讨论。

桂西南蔗区甘蔗新品种筛选与评价

对8个甘蔗新品种(系)的农艺性状进行综合评价,筛选出优良品种(系),为桂西南蔗区特别是龙州蔗区新品种的推广提供参考。以ROC22为对照,对7个甘蔗新品种(系)进行一年新植两年宿根田间比较试验,采用DTOPSIS法对其进行筛选与评价。结果表明,各品种按照DTOPSIS分析结果Ci排序依次为:河糖11-157>桂糖10-1042、桂糖08-56>桂糖11-2320>桂糖09-439>ROC22>桂糖11-2119>桂糖10-417。甘蔗新品种河糖11-157和桂糖10-1042可在桂西南蔗区特别是龙州蔗区进行推广应用,桂糖08-56和桂糖09-439可作为优良新品种继续观察,桂糖11-2320、桂糖11-2119和桂糖10-417不建议在桂西南蔗区推广应用。

甘蔗茎伸长期伸长量与气象条件关系特征分析——以耿马为例

利用2001年-2022年南华糖业提供的甘蔗生长观测数据,以及2016年-2022年临沧市科技服务中心在耿马甘蔗实验站的气象观测资料,分析了甘蔗茎伸长期(6月-11月)植株高度变化特征及气象对甘蔗茎伸长影响。结果表明:一是甘蔗茎伸长关键期在6月-10月;二是6月-10月的有效积温、累积降量、气温是影响甘蔗茎伸长的主因子。

田阳区甘蔗丰产栽培及病虫害综合防治技术

甘蔗是广西百色市田阳区特色产业,种植甘蔗是当地农民增收的重要途径之一,但若栽培技术不规范,病虫害防治不及时,将影响甘蔗的产量及质量。因此,做好甘蔗丰产栽培及病虫害综合防治意义重大。从甘蔗品种选择、蔗田选址、整地施肥、蔗种处理、蔗种下种、田间管理以及病虫害防治等方面,探讨了田阳区的甘蔗丰产栽培及病虫害综合防治技术,以为同类地区的甘蔗种植户提供借鉴。

隆安县甘蔗产业发展SWOT分析

随着人们对甜食和糖制品需求量的增加,以及生物燃料和化工领域对生物质能源的需求增加,甘蔗的市场需求持续增长,为甘蔗行业提供了一个良好的发展机遇。利用SWOT分析法,从优势、劣势、机会、挑战4个维度对广西隆安县甘蔗产业发展情况进行了分析,分析了目前隆安县甘蔗产业发展存在的劣势,探讨了隆安县甘蔗产业发展对策。

美国引进甘蔗热带种的ARMS PCR真实性鉴定

甘蔗遗传基础狭窄已经极大地阻碍了其育种进程,挖掘优异种质资源、创新亲本材料将成为未来甘蔗育种的重要方向之一。利用四引物扩增受阻突变PCR体系(ARMS PCR)对国家甘蔗种质资源圃保存的美国引进的24份疑似热带种材料进行真实性鉴定。PCR鉴定结果表明,供试材料中有‘Green German’、‘Black Fiji’、‘Chittan’、‘IN 84-072’和‘NG 21-002’这5份材料扩增带型与热带种‘拔地拉’(Badila)一致,仅出现428 bp的共有条带和278 bp的热带种特有条带,属于热带种带型;而其它19份材料同时具有278 bp的热带种特有条带和203 bp的割手密特有条带,属于热带种与割手密的杂交种带型。经过上述分子鉴定得出结论,24份美国引进的甘蔗种质中有‘Green German’、‘Black Fiji’、‘Chittan’、‘IN 84-072’和‘NG 21-002’这5份材料为热带种材料,建议后续加强其农艺性状和抗性调查,并作为甘蔗热带种新血缘亲本进行杂交利用。

广西甘蔗生育期内气候资源空间特征及对气候变化的响应

利用1961—2020年广西91个国家气象观测站逐日气象数据,对甘蔗(Saccharum officinarum L.)苗期(P1)、分蘖期(P2)、茎伸长期(P3)和工艺成熟期(P4)气候资源空间分布特征进行分析,同时采用线性趋势分析方法探讨甘蔗生育期内气候资源对气候变化的响应。结果表明,在空间分布上,平均气温在苗期西高东低,在茎伸长期和工艺成熟期南高北低;日照时数在苗期西高东低,在茎伸长期东高西低,在分蘖期和工艺成熟期南高北低;降水量在苗期和分蘖期东、东北高西南低,在茎伸长期西、西南高东北低,在工艺成熟期桂中地区高、其他区域低。气候变化背景下,甘蔗生育期内平均气温显著上升,在桂北甘蔗工艺成熟期上升最快;日照时数显著下降,在茎伸长期时最明显;降水量在桂东北甘蔗分蘖期呈部分显著上升趋势。

十四个甘蔗与斑茅属间远缘杂交BC_(3)F_(1)品系生理特性研究

斑茅是甘蔗近缘属(蔗茅属)的野生种,抗逆性强,利用斑茅与甘蔗进行属间远缘杂交,导入斑茅优良抗性基因,可拓宽遗传基础,获得优异抗逆种质或亲本,加速甘蔗品种改良。对华南农业大学甘蔗研究室培育鉴定的14个甘蔗斑茅属间杂交后代BC_(3)F_(1)品系进行一年新植、一年宿根田间生理特性评估。结果表明,14个参试品系及对照(CK,柳城05-136)的新植及宿根苗期、分蘖期、拔节期、伸长期的叶片SOD活性、POD活性、CAT活性及可溶性糖、可溶性蛋白含量主要呈现上升趋势,叶片MDA含量呈现下降趋势;总体而言,HE15-30、HE15-71、HE15-77、HE15-61和HE15-63等5个品系在上述4个生育时期的叶片SOD活性、POD活性、CAT活性及可溶性糖、可溶性蛋白含量高于CK,MDA含量低于CK,表明这5个品系具有较强的抗逆生理特性。

不同铵硝配比对‘云蔗05-51’苗期生长及氮同化的影响

为揭示甘蔗(Saccharum officinarum L.)对氮形态的偏好与其最适铵硝配比,以‘云蔗05-51’为材料开展水培实验,在总供氮水平为10 mmol/L的条件下,设置0∶100、20∶80、40∶60、50∶50、60∶40、80∶20、100∶0共7种铵硝配比处理,分析供氮充足条件下不同铵硝配比处理对甘蔗苗期生长及氮同化利用的影响。结果显示,铵硝配比为20∶80时,甘蔗植株生物量最高,此时根系形态、氮同化关键酶活性最高,氮素的吸收及利用效率也较高。铵硝配比达40∶60时,根系生长开始受限;铵硝配比增加到80∶20时,地上部生长也明显受限。在单独供铵态氮时,植株具有最高的氮含量、单位根长吸氮量、游离氨基酸与可溶性蛋白含量,但氮同化关键酶活性整体较低,氮生理利用效率最低,植株生长和根系形态均为最差。研究结果说明,铵硝同时供应对植株生长和氮同化利用的效果优于单独供硝态氮或铵态氮,本实验条件下‘云蔗05-51’生长所需的适宜铵硝配比为20∶80。

甘蔗不同品种光合特性比较及其聚类分析

利用CI-301PS光合作用测定系统测定152个甘蔗品种资源的光合参数。结果表明,甘蔗品种间光合性状存在较大差异。进一步对152个甘蔗品种资源的光合性状进行聚类和判别分析,将152个品种分为7大类,在聚类分析基础上用判别分析选出对甘蔗光合性状数值分类有显著影响的3个光合参数,建立了7个判别能力较高的判别模型。

甘蔗不同叶位叶片形态与冠层特征的关系

利用CI-100数字植物冠层分析仪和CI-203叶面积分析仪测定了 4个甘蔗品种不同叶位层的冠层参数和相应叶位叶片的形态特征,结果表明:不同基因型不同叶位层间叶片形态、冠层空间结构和冠层辐射特征存在显著差异,不同叶位层叶面积指数、叶簇倾角和叶分布的变化主要由冠层内不同叶位叶片叶宽的变化引起,而不同叶位层消光系数的变化主要与叶簇倾角和叶分布有关;散射光透过系数的变化主要与叶面积指数、叶簇倾角和叶分布有关,直射光透过系数的变化主要与叶分布、叶宽、长宽比有关,光合有效辐射的变化与叶面积指数、叶面积、叶宽、长宽比有关.研究结果同时表明,叶片形态与冠层辐射特征存在显著的典型相关关系. 图 2表 4参

甘蔗水分胁迫响应相关醛脱氢酶基因的克隆及其表达特征分析

【目的】筛选并克隆与水分胁迫相关的基因,通过对目的基因的表达分析进一步解析植物的抗旱机制,为甘蔗抗逆育种提供候选基因和理论依据。【方法】应用消减文库技术结合cDNA芯片技术筛选水分胁迫诱导的基因的EST序列,根据筛选到感兴趣的上调表达基因的EST序列,用RACE技术获得SSADH的全长cDNA序列,并通过实时荧光RT-PCR技术对该基因的表达特征进行分析。【结果】通过消减文库技术结合cDNA芯片技术筛选的EST中含有4个推测为基因SSADH的EST,其在水分胁迫处理的斑茅中均明显上调表达。通过RACE扩增获得甘蔗SSADH全长cDNA序列为1914bp,其中5′端非编码区25bp,开放阅读框为1581bp,3′端非编码区306bp,在1749处有终止加A信号AATAA。克隆的甘蔗全长cDNA序列进行NCBI比对分析显示,所克隆的甘蔗SSADH全长cDNA与拟南芥(NM_106592.3)的ALDH5F1同源性为73%,表明克隆的cDNA序列可以归为甘蔗的醛脱氢酶家族基因ALDH5F1。通过荧光实时PCR分析SSADH表达表明,该基因参与干旱胁迫下的全程响应,并证明水分胁迫下该基因表达与Ca2+的存在调控关系。【结论】克隆了甘蔗基因SSADH,该基因为一个水分胁迫响应基因;SSADH的植物在体表达与Ca2+存在调控关系。克隆的基因SSADH可用于植物抗逆性调控研究。

甘蔗S-腺苷蛋氨酸脱羧酶基因Sc-SAMDC的克隆和表达分析

【目的】克隆甘蔗(Saccharum officinarum)S-腺苷蛋氨酸脱羧酶(S-adenosylmethionine decarboxylase,SAMDC)基因,并进行序列特征、原核表达和不同逆境胁迫下表达特性分析。【方法】通过对甘蔗茎全长cDNA文库测序和分析,获得SAMDC基因cDNA全长,命名为Sc-SAMDC,并进行序列分析。随后将编码S-腺苷蛋氨酸脱羧酶的cDNA片段克隆到原核表达载体pET29a(+)中,构建融合表达质粒,转化至Esherichia coli BL21(DE3)中进行表达。最后利用定量PCR技术分析甘蔗幼苗中该基因在不同外源胁迫下的表达特性。【结果】序列分析显示,甘蔗Sc-SAMDC基因(GenBank Accession number:GQ246459)cDNA全长1968bp,存在3个读码框(袖珍读码框tORF、上游读码框uORF和主读码框mORF),mORF长1200bp,编码399个氨基酸的SAMDC酶原,预测分子量为43.6kD,该酶原含有两个高度保守的功能结构域(酶原剪切位点和PEST结构域)。原核表达产物经SDS-PAGE表明,Sc-SAMDC以融合蛋白形式表达,相对分子量约为50kD。定量PCR分析表明,Sc-SAMDC基因在聚乙二醇(PEG)、NaCl、水杨酸(SA)和H2O2外源胁迫下表达特性不同,受PEG和NaCl的诱导,受SA和H2O2的抑制。【结论】本研究成功地克隆了Sc-SAMDC基因并在原核生物中进行了表达研究,分析了该基因的表达特性,为其进一步的生物学功能研究及其应用奠定了基础。

甘蔗NBS-LRR类抗病基因同源序列的分离与鉴定

根据已知植物(拟南芥、烟草和亚麻)抗病基因(RGAs)保守序列设计简并引物,从甘蔗高抗黑穗病品种NCo376的基因组DNA和cDNA中扩增出11条抗病基因同源序列,其中5条来自基因组DNA(EF059973、EF059974、EF059975、EF059976和EF059977),6条来自cDNA(EF155648、EF155649、EF155650、EF155651、EF155652和EF155653)。序列分析表明,这些RGAs均含有典型的NBS-LRR类抗病基因所拥有的保守结构域P-loop、Kinase-2a、Kinase-3a和疏水结构域。聚类分析表明,11条RGA同RPS2和XA1聚为一类,而N和L6则单独聚为一类。所有11条抗病基因同源序列中,kinase-2(LLVLDDVW/D)最后一个氨基酸皆为色氨酸。定量PCR分析表明,编号为EF059974的PIC基因的表达不仅受黑穗病菌胁迫的影响,而且受水杨酸的诱导和过氧化氢的抑制,也具有抗病基因组织特异性和组成型表达特性。

能源甘蔗不同叶位叶片形态、光合气体交换及其与产量关系

利用CI-203叶面积分析仪和CI-301CO2气体分析仪分析4个能源甘蔗品种分蘖期和伸长初期不同叶位层叶片的形态特征和光合气体交换特征参数.结果表明,不同基因型不同叶位层间叶片形态、光合气体交换特征参数存在显著差异.分蘖期和伸长初期蔗叶的叶长、叶宽、叶面积、长宽比等叶片形态参数和净光合速率、蒸腾速率、气孔导度和水分利用率等光合气体交换特征参数均表现为随着叶位的下降,自上而下逐渐变小.逐步回归分析结果表明,分蘖期第3叶的叶宽和水分利用率及第5叶的叶宽对产量形成影响较大;而伸长初期第1叶和第3叶的叶面积对产量形成影响较大.