Mapping QTLs using a novel source of salinity tolerance from Hasawi and their interaction with environments in rice

Background

Salinity is one of the most severe and widespread abiotic stresses that affect rice production. The identification of major-effect quantitative trait loci (QTLs) for traits related to salinity tolerance and understanding of QTL × environment interactions (QEIs) can help in more precise and faster development of salinity-tolerant rice varieties through marker-assisted breeding. Recombinant inbred lines (RILs) derived from IR29/Hasawi (a novel source of salinity) were screened for salinity tolerance in the IRRI phytotron in the Philippines (E1) and in two other diverse environments in Senegal (E2) and Tanzania (E3). QTLs were mapped for traits related to salinity tolerance at the seedling stage.

Results

The RILs were genotyped using 194 polymorphic SNPs (single nucleotide polymorphisms). After removing segregation distortion markers (SDM), a total of 145 and 135 SNPs were used to construct a genetic linkage map with a length of 1655 and 1662 cM, with an average marker density of 11.4 cM in E1 and 12.3 cM in E2 and E3, respectively. A total of 34 QTLs were identified on 10 chromosomes for five traits using ICIM-ADD and segregation distortion locus (SDL) mapping (IM-ADD) under salinity stress across environments. Eight major genomic regions on chromosome 1 between 170 and 175 cM (qSES1.3, qSES1.4, qSL1.2, qSL1.3, qRL1.1, qRL1.2, qFWsht1.2, qDWsht1.2), chromosome 4 at 32 cM (qSES4.1, qFWsht4.2, qDWsht4.2), chromosome 6 at 115 cM (qFWsht6.1, qDWsht6.1), chromosome 8 at 105 cM (qFWsht8.1, qDWsht8.1), and chromosome 12 at 78 cM (qFWsht12.1, qDWsht12.1) have co-localized QTLs for the multiple traits that might be governing seedling stage salinity tolerance through multiple traits in different phenotyping environments, thus suggesting these as hot spots for tolerance of salinity. Forty-nine and 30 significant pair-wise epistatic interactions were detected between QTL-linked and QTL-unlinked regions using single-environment and multi-environment analyses.

Conclusions

The identification of genomic regions for salinity tolerance in the RILs showed that Hasawi possesses alleles that are novel for salinity tolerance. The common regions for the multiple QTLs across environments as co-localized regions on chromosomes 1, 4, 6, 8, and 12 could be due to linkage or pleiotropic effect, which might be helpful for multiple QTL introgression for marker-assisted breeding programs to improve the salinity tolerance of adaptive and popular but otherwise salinity-sensitive rice varieties.

     

内生菌与雷公藤细胞悬浮共培养的生理生化特性

将2株雷公藤内生真菌Fusarium oxysporum NS33与Penicillium steckii NS6、2株内生细菌Enterobacter cloacae sub sp LG3与Serratia marcescens LY1及其组合分别与雷公藤细胞悬浮共培养,对不同培养体系内雷公藤细胞的生长及其生理生化特征进行研究。结果显示,在共培养前期,与对照相比,接种单一内生菌株提高了细胞的干重,其中菌株NS6的促生效果最明显;而在共培养后期,无论是单一内生菌还是混合内生菌均对细胞生长具有抑制作用。内生真菌和菌株组合处理的培养液p H值有明显的升高,而内生细菌LY1则明显降低了培养液的p H值,其具有产酸性。另外,当雷公藤细胞同混合菌株共培养时,培养基中总糖消耗量是最大的,而接种单独菌株时则对细胞可溶性蛋白含量具有一定的提高作用。接种内生菌会影响雷公藤细胞的POD、CAT及SOD活性,与对照相比,接种单独菌株会更加提升POD与CAT的活性,而细胞MDA含量则明显下降。     

Investigation of mechanical properties of developed antimicrobial PPsuture/Ag nanocomposite

In order to prevent surgical complications due to microbial infections, we have developed polypropylene suture grafted with silver nanoparticles (PPsuture/Ag nanocomposite) by a simple immersion procedure. Physical and mechanical properties of developed suture are investigated. Suture surface characteristics are examined by scanning electron microscopy (SEM) imaging and atomic force microscopy (AFM). Silver content on suture surface was determined by Inductively coupled plasma atomic emission spectroscopy (ICP-AES). The mechanical properties of developed antibacterial PP suture/Ag were studied. We note that proposed silver coating method has not affected mechanical performances of suture. Antimicrobial performances of PP suture/Ag nanocomposites against S. aureus and E. coli colonies were also investigated.     

玉米-大豆带状间作下除草剂的筛选

采用单因素随机区组设计,研究了3种药剂(A1:60%乙·嗪·滴丁酯、A2:60%乙·嗪·滴丁酯+48%灭草松、A3:48%灭草松)与清水对照组(A4)在玉米-大豆间作条件下,玉米、大豆苗期农艺性状、株防效及药害等级和成熟期作物产量,考察了玉米-大豆带状复合种植模式下除草剂除草效果及安全性。结果表明:3种除草剂对反枝苋、马唐防效好,对刺儿菜防效较差。药后15 d,A1与A2对杂草的防除效果最好,均在75%以上,其中A2对马唐的株防效达到了100%。药后30 d,各处理下的鲜重防效均在80%以上,A1对反枝苋的株防除效果最好为88.89%。玉米、大豆产量在A2处理下最高,分别较清水对照组高33.7%、39.4%。3种除草剂对玉米、大豆幼苗都有一定的药害症状,但药害等级均小于1,从株防效和对作物产量的影响分析,A2更适用于玉米-大豆带状复合种植模式。     

软枣猕猴桃叶片愈伤组织诱导技术的研究

[目的]由于软枣猕猴桃在初代培养中外植体诱导率极低且快繁效果差,因此进行其组织培养技术体系的研究,以期解决其人工种植的难题.[方法]本研究以软枣猕猴桃展叶为外植体,通过采用不同消毒试剂及消毒处理时间,筛选出最佳的灭菌程序;将不同培养基与不同浓度的KT、2,4-D组合,筛选出最佳的初代培养基配方.[结果]选用展叶为外植体,75％CH3CH2OH处理30 s后以10％NaClO处理20 min,0.1％HgCl2处理15 min后无菌水冲洗3～4次,接至pH=5.8的MS+1 mg·L-1 KT+0.5 mg·L-12,4-D+3％白糖+0.55％琼脂培养基上,置于光照2500 lx、8 h·d-1,26℃下培养8 d后有少部分愈伤组织出现,60 d后平均单芽愈伤组织达0.8 g以上,平均单个愈伤组织长度0.7～1.4 cm,属中块愈伤组织.[结论]以本实验得出的愈伤组织培养方法进行培养,可有效提高诱导率,达到快繁的目的.     

60Co-γ射线辐照处理对4种药用植物种子萌发的影响

用不同剂量60Co-γ射线对益母草、蒲公英、车前、紫苏种子进行辐照处理,测定这4种药用植物种子的发芽率、发芽势、发芽指数等指标,了解60Co-γ射线辐照对其种子萌发的影响,为这4种药用植物的新品种选育提供参考。结果表明,60Co-γ射线对4种药用植物种子具有较强的诱发突变能力,辐照剂量与种子发芽率、发芽势、发芽指数、活力指数、苗高、苗鲜重均呈负相关,其中与苗高的相关性达极显著水平。益母草和蒲公英种子的半致死剂量大于400 Gy,车前种子的半致死剂量在300~400 Gy之间,紫苏种子的半致死剂量在50~100 Gy之间。     

不同种源多穗柯主要生物活性成分与矿质元素含量变异分析

【目的】阐明多穗柯主要药用活性成分与矿质元素的种源遗传变异规律。【方法】对设置在江西省分宜县多穗柯全分布区的5个种源试验林植株叶部根皮苷、三叶苷、总黄酮、有机碳、氮、磷和钾元素含量进行测定、分析。【结果】不同种源多穗柯叶部根皮苷、三叶苷、总黄酮、有机碳、全氮、全磷含量差异均存在极显著差异(P <0.01)。不同种源根皮苷含量变异范围为16.03~64.35 mg·g-1,三叶苷含量变异范围分别为4.76~29.97 mg·g-1,根皮苷含量变异范围为61.59~81.05 mg·g-1,其中重庆北碚为根皮苷、有机碳、全磷和全氮含量高的种源,与其他种源相比根皮苷含量最高,四川米易三叶苷含量最高,江西分宜总黄酮含量最高。多穗柯根皮苷含量随日照时数增加呈显著降低趋势(P <0.05),三叶苷含量随无霜期增加呈显著降低趋势,总黄酮含量随经度增加呈极显著增加的趋势,随降水量增加呈显著增加的趋势;根皮苷与全氮含量呈极显著正相关关系,有机碳与全钾含量呈显著负相关关系;聚类分析表明,5个多穗柯种源可划分为2个类群,高根皮苷、高总黄酮、低三叶苷类群和低根皮苷、低总黄酮和高三叶苷类群。【结论】多穗柯根皮苷、三叶苷、总黄酮和主要矿质元素含量具明显种源变异,重庆北碚、四川米易和江西分宜的多穗柯为优良种源。     

混合盐胁迫对马蔺幼苗根系构型及生长量的影响

为探讨不同种类盐胁迫对马蔺幼苗生长状况的影响,采用室内培养的方法,研究总质量浓度为0.3%的NaCl、NaHCO₃单盐溶液及其不同配比的混合盐溶液胁迫对马蔺(Iris lactea var. chinensis)幼苗生长量、地上部干鲜重比值、地下部干鲜重比值以及根系构型的影响。结果表明,随着胁迫时间的延长,0.3%NaCl溶液对叶数和株高增长量的影响最小,其次为3种混合盐溶液,各处理在第14天时株高增幅达到最大。经0.3%NaHCO₃处理后的幼苗地上部干鲜重的比值为空白对照的2.17倍,地下部干鲜重则为空白对照的56.61%,随着混合溶液中NaHCO₃浓度的上升,地上部干鲜重比值表现出上升的趋势,地下部干鲜重比值则表现出下降的趋势。经35天处理后,0.3%NaHCO₃胁迫的马蔺幼苗根系总长、根系表面积较对照均显著下降,降幅分别为39.73%、26.08%,而各处理间的根系体积却无显著差异。研究结果显示,0.3%NaHCO₃溶液对马蔺幼苗的胁迫作用最强,2种单盐对根系的胁迫作用强于混合盐胁迫,而0.3%NaCl溶液对生长量的胁迫作用最弱。     

云南菜豌豆栽培技术要点

菜豌豆是云南省的重要经济作物。云南地理优势独特,气候优势突出,独有的土壤,使得菜豌豆肉质绵滑,鲜嫩爽口,营养丰富,深得人们的喜爱。随着云南省农业栽培技术的不断提高,菜豌豆种植面积和规模不断扩大,种植人数也不断增加。菜豌豆远销国内各地,促进农民增收和当地农民就业。根据资料调查与分析,总结出适合云南省菜豌豆栽培的技术要点,为提高菜豌豆品质与农民增产增收提高重要保障。     

Conductive 3D structure nanofibrous scaffolds for spinal cord regeneration

The complex nature of spinal cord injuries has provided much inspiration for the design of novel biomaterials and scaffolds which are capable of stimulating neural tissue repair strategies. Recently, conductive polymers have gained much attention for improving the nerve regeneration. In our previous study, a three-dimensional (3D) structure with reliable performance was achieved for electrospun scaffolds. The main purpose in the current study is formation of electrical excitable 3D scaffolds by appending polyaniline (PANI) to biocompatible polymers. In this paper, an attempt was made to develop conductive nanofibrous scaffolds, which can simultaneously present both electrical and topographical cues to cells. By using a proper 3D structure, two kinds of conductive scaffolds are compared with a non-conductive scaffold. The 3D nanofibrous core-sheath scaffolds, which are conductive, were prepared with nanorough sheath and aligned core. Two different sheath polymers, including poly(lactic-co-glycolic acid) PLGA and PLGA/PANI, with identical PCL/PANI cores were fabricated. Nanofibers of PCL and PLGA blends with PANI have fiber diameters of 234±60.8 nm and 770±166.6 nm, and conductivity of 3.17×10^-5 S/cm and 4.29×10^-5 S/cm, respectively. The cell proliferation evaluation of nerve cells on these two conductive scaffolds and previous non-conductive scaffolds (PLGA) indicate that the first conductive scaffold (PCL/ PANI-PLGA) could be more effective for nerve tissue regeneration. Locomotor scores of grafted animals by developed scaffolds showed significant performance of non-conductive 3D scaffolds. Moreover, the animal studies indicated the ability of two new types of conductive scaffolds as spinal cord regeneration candidates.