zea

zea

1. Maize（Zea mays..L）;osmotic stress; xylem sap;alternative split-root; free amino acid; protein.

09玉米;渗透胁迫;木质部汁液;分根交替;游离氨基酸;蛋白质

2. 13 Rodriguez PC, Zea AH, Culotta KS, Zabaleta J, Ochoa JB, Ochoa AC. Regulation of T cell receptor CD3zeta chain

12郝悦,周新民.左旋精氨酸对大鼠肝脏缺血再灌注损伤的保护作用.世界华人消化杂志2003;11:1636-1638

3. EFFECT OF Cd~(2+) ON SEED VIGOR OF ZEA MAYS L. AND ANTAGONISM OF Ca~(2+) TO Cd~(2+)

Cd~(2+)对玉米种子活力的影响及Ca~(2+)的拮抗作用

4. Zea mays [corn;

maize] 玉蜀黍；

5. Zea mays

n. 玉米

6. Thyrsia zea

n. 锥茅

7. Genetic Difference between Zea mays sinensis and Zea mays indurata from Guizhou and Yunnan Province Revealed by SSR Markers

SSR标记揭示的云南省、贵州省糯玉米与普通玉米种质资源的遗传差异

8. Ti Plasmid-mediated Transformation of Tobacco with C_4-PEPCase cDNA from Zea mays

Ti质粒介导的磷酸烯醇式丙酮酸羧化酶cDNA转化烟草植株

9. The cluster analysis using UPGMA method based on the data of AFLP showed that the 50 materials could be divided into three groups (Tripsacum, Zea and Coix), which agreed with the former taxonomical classification.

UPGMA聚类分析结果表明，可以将50个材料分为三大类，与已有的对玉米族的分类相一致，但与玉蜀黍属属内的种间和种内分类并不太一致，说明大刍草各种内存在较高的遗传多样性。

10. Ning S B, Wang L, Song Y C.Physical mapping of the genes px and cld coding peroxidase and Cold-regulated protein in Maize (Zea mays L)[J].Acta Genetic Science, 2000, 27(8): 719-724.

[1]宁顺斌, 王玲, 宋运淳. 玉米(Zea mays L)过氧化物酶编码基因px和冷调控蛋白编码基因cld的物理定位[J]. 遗传学报, 2000, 27(8): 719-724.

11. XU S Y,CHEN Y X,LIN Q,et al.Remediation of phenanthrene and pyrene contaminated soil by growing maize (Zea mays L.)[J].Acta Pedologica Sinica,2006,43 (2):226-232.

[23]徐圣友,陈英旭,林琦,等.玉米对土壤中菲芘修复作用的初步研究[J].土壤学报,2006,43(2):226-232.

12. Wang Y J,Wang K J,Dong S T,et al.Effects of stubble height and clipping stage on regrowth performances of Zea mexicana[J].Scientia Agricultura Sinica,2005,38(8):1555-1561.

[2]王永军,王空军,董树亭,等.留茬高度与刈割时期对墨西哥玉米再生性能的影响[J].中国农业科学,2005,38(8):1555-1561.

13. Zea L.

[医] 玉蜀黍属，玉米属

14. , maize(Zea mays L.)

、玉米(Zea mays L.)

15. ,Chenopodium amaranitcolor Cost et Reyn,and Zea may L.were produ-ced by inoculation with the mite.

、黍(Panicum miliaceum L.) 、苋色藜(Chenopodium amaranitcolor Cost et Reyn)表现系统花叶病状,可通过介体感染玉米。

16. An important commercial viral pesticide is marketed under the trade name Elcar for control of the cotton bollworm Heliothis zea.

一种重要商品病毒杀虫剂商品名为Elcar用于抑制棉铃虫。

17. Accumulation coefficients of different crops is in following order: Astragalus sinicus>Oryza saliva>Glycine max>Hordeum vulgare>Zea mays>Triticum oestivum.

不同农作物对镉的吸收程度不同，富集系数为紫云英＞水稻＞大豆＞大麦＞玉米＞小麦。

18. Effect of Different Dark Treatments on Flowering Habit, Yield and Quality in Zea Mexicana Schrad

不同暗处理对墨西哥玉米开花习性、产量及品质的影响

19. A study on the population physiological indices of different types of forage Zea mays

不同类型饲用玉米品种群体生理指标的研究

20. Effect of different stress on roots activity and nitrate reductase activity in Zea mays L.

不同逆境对玉米幼苗根系活力及硝酸还原酶活性的影响。

21. Zea diploperennis

二倍体多年生类玉米

22. Exeracting agglutinin from zea mays phaseolus valgaris and dolichos lablab and comparative. analysie of their effects bor promoting transformation

从玉米和陕西菜豆中提取凝集素及促淋巴细胞转化试验的比较分析

23. The aberrant effects of malachite greens at different concentrations were investigated with Zea mays L.

以不同浓度的孔雀石绿为诱变剂,测定玉米根尖细胞的微核率、有丝分裂指数和染色体畸变率。

24. Keywords: Maize(Zea may L.), SSR marker, Purity identification, F1hybrid,

关键词:玉米,SSR标记,纯度鉴定,F1杂交种

25. Keywords Periodontitis Drug therapy Zea Mays L;

关键词牙周炎;药物治疗;哌力多;

26. Keywords antioxidative system;iron deficiency;nitric oxide;oxidative stress;Zea mays;

关键词玉米;缺铁;氧化损伤;一氧化氮;抗氧化系统;

27. Title： Accumulation and Partitioning of Copper in Corn(Zea mays L.

关键词：夏玉米;铜;吸收;积累;分配

28. Title： Study on asymmetric somatic hybridization between common wheat（Triticum aestivum）and maize （Zea mays）

关键词：普通小麦;玉米;紫外线;不对称融合;杂种愈伤组织;白化苗

29. Title： Analysis of genetics of four kernel traits in maize(Zea mays L.

关键词：玉米;籽粒性状;遗传模型;基因效应

30. Title： Study on Heredity of Main Forage Traits in Silage Maize (Zea mays L.

关键词：玉米;自交系;饲用性状;配合力;遗传

31. Liu W G, Chen Y, Shan L.Effects of soil bulk density on ABA concentration in xylem sap and stomatal conductance of maize (Zea mays L.) plant under different soil water conditions.

刘晚苟,陈燕,山仑.不同土壤水分条件下土壤容重对玉米木质部汁液中ABA浓度和气孔导度的影响.植物生理学通讯,2006,42(5):831-834.

32. Mays zea Gaertn.Fruct.Semin.Pl.1:6,pl.1,fig.9.1788.

包谷；栗米；包栗；棒子；玉米玉蜀黍属

33. Rape (Brassica campestris L. )Was found to be a more susceptible species than cucumber (Cucumis sativus L.)and maize (Zea mays L.).

发现油菜试法比黄瓜和玉米试法更敏感。

34. Changes in Desiccation Tolerance During Imbibition of Zea mays L. Relate to Activity of Reactive-Oxygen-Scavenging Enzymes

吸胀玉米种子脱水耐性变化与活性氧清除酶活性的关系

35. Effect of Saline Alkali Soil Stress on Zea mays L.

土壤的盐碱化对玉米的胁迫作用。

36. Effects of applying L-methionine, L-phenylalanine and L-tryptophan on Zea mays growth and its nutrient uptake

土施L-蛋氨酸、L-苯基丙氨酸、L-色氨酸对玉米生长和养分吸收的影响

37. Keywords soil column-leaching test;heavy metal-contaminated soils;phytoremediation;Vetiveria zizanioides L.;Zea mays L.;EDDS;EDTA;

土柱淋滤试验;重金属污染土壤;植物修复;香根草;玉米;乙二胺二琥珀酸;乙二胺四乙酸;

38. In maize (Zea mays L.) single-cross breeding programs,identifying high yielding hybrids and inbred lines with superior performance is an important problem.

在玉米单交种育种中，鉴定高产杂交种和具有优良特性的自交系是一个重要的问题。

39. There exist complete cross-incompatibility and also partial incompatibility in Zea mays.

在玉米属中,既存在完全的杂交不亲和性,也存在程度不同的部分不亲和性。

40. There exist two cross-incompatible systems in Zea mays genus: Gal and Gat. The Gal and Gat systems function individually.

在玉米属中存在两个杂交不亲和基因系统:Gal和Gat系统。

41. Zea rnexicana

墨西哥玉米

42. The effect of compound heavy metal on seedling growth of Zea mays and Sorghum vulgare

复合重金属胁迫对玉米和高粱成苗过程的影响

43. summer maize ( Zea mays L. )

夏玉米

44. Study on the Dynamic of the Organic Nutrition and the Mineral Elements in the Silk and Cob of Summer Maize(Zea Mays L.)

夏玉米花丝和穗轴有机营养和矿质养分变化规律的研究

45. Zea Disploperennis

大刍草

46. Experiments were performed on 12 New Zea land white rabbits（12 eyes）.

实验对象为12只新西兰白兔（12只眼）。

47. The CHASE domain family of rice containing five genes, named as OsCRLla, OsCRLlb, OsCRL2, OsCRLB, and OsCRL4 based on the homology with histidine kinase of Zea mays.

对水稻中含有CHASE结构域的蛋白家族进行同源性分析并克隆了OsCRL4基因。

48. Climate Condition Comparison Analysis on Guangdong and Brazil Zea mays Varieties.

广东和巴西玉米气候生态条件比较分析

49. any of numerous cultivated forms of a widely grown,usually tall annual cereal grass(Zea mays) bearing grains or kernels on large ears

广泛生长的，通常高大的一年生的多种禾谷类作物的任一种，（玉蜀黍玉蜀黍属）在大的穗上长有谷粒

50. Studies on Genetic Selection and Combination Effects on Oppositifolious Character of Zea mays[J].

引用该论文 蒋培东,李展,朱苏文,程备久.

51. Zea Longa E,Weinstein Arlson .Reversible middle cerebral artery occlusion without craniectomy in rats[J]. Stroke 1989，20(1):84

张玉凤,张桂云,杨晓华.针刺透穴配合康复训练治疗中风偏瘫的疗效观察[J].中国中医药信息杂志，2002，9(7)：58

52. Individual grain yield potential and nitrogen utilization efficiency of Zea mays cultivars widely planted in North China

我国北方玉米品种个体产量潜力与氮利用效率研究

53. Status of Zea mays L. Variety Producing and its Outlook in china

我国爆裂玉米选育的状况和展望

54. Abstract： The effects of calcium and spermidine on the growth, electrolyte leakage, ion contents and polyamine levels of maize (Zea mays) seedhngs under NaCl stress were investigated.

摘 要： 研究了钙离子和亚精胺对盐胁迫条件下玉米幼苗生长状况、电解质渗漏、离子含量和多胺水平的影响。

55. Effect of zinc nutrition on endogenous hormone and free radicals in spring maize (Zea Mays L.) were studied by field trial,plant analysis and physiological determination.

摘要 采用田间试验、植株化学分析和生理测定方法 ,研究了锌肥用量对春玉米内源激素与氧自由基代谢的影响。

56. The allelopathic potential of two plant donators, Areca catechu L. and Hevea brasiliensis on the germination and growth of Zea mays L.

摘要以槟榔、橡胶作为供体，玉米、花生、南瓜、黄豆、稗草、马唐为受体，通过种子萌发的生测和根伸长的生测法来测定槟榔、橡胶的化感作用。

57. Determination of the relative combining ability of corn (Zea mays L.) inbred lines is an important feature of applied corn breeding program.

摘要在玉米育种过程中，自交系组合力的相对大小之检测为一重要工作。

58. Drought might be the biggest adversity in the nature and might seriously affect maize (Zea Mays L.), one of the most important food-feedstuff crops in China.

摘要干旱是制约玉米生产最主要的逆境因子。

59. The distribution of 14C-assimilates in plant organs and different positions of ear in maize (Zea mayo L.) was studied by feeding the ear leaf with 14CO2 at early period of kernel development.

摘要通过14C示踪方法，研究了在籽粒发育前期饲喂果穗叶后14C-同化物在植株及果穗不同部位的分布。

60. Pollens of Tripsacum L. could germinate on the stigmas of maize (Zea mays L.).

摘要采用荧光显微技术，对摩擦禾、薏苡花粉在玉米柱头上的萌发和生长过程进行了观察。

61. Studies on Breeding Early Maturing and Hard Grain Inbred Line H_(21) of Zea Mays L.

早熟硬粒型玉米自交系H_(21)选育研究

62. Effect of seed priming combined with chemical treatment on improving seed vigor of super sweet corn (Zea mays L. saccharata Sturt) was investigated.

本文对改善超甜玉米种子活力的方法进行了探索。

63. Using maize (Zea mays L.) inbred line B73, the complete set of disease resistance candidate genes that encode NBS was identified in the genome.

本研究对玉米自交系B73全基因组中含有NBS结构的候选抗病基因进行了基因总数、类型、系统进化关系等分析。

64. mechanized sowing summer maize(Zea mays L.)

机播夏玉米

65. Zhong H.Srinivasan C.Sticklen MB In vitro morphogenesis of corn(Zea mays L.):I.Differentiation of multiple shoot clumps and somatic embryos from shoot tips 1992

李国圣.张卿伟.张举仁.毕玉平.单雷玉米丛生芽体系的建立及抗除草剂转基因植株再生[期刊论文]-作物学报2001(5

66. Duvick D.N. 2005. The contribution of breeding to yield advances in maize (Zea mays L.). p.83-145, in: D.N. Sparks, (ed.) Adv. Agron., Vol. 86. Academic Press, San Diego, CA.

李竞雄，1990.玉米杂种优势研究回顾与展望.植物遗传育种理论与应用研讨会文集,1990,3,5-8.南京,1-7页.转载自“玉米育种研究进展”，科学出版社，北京，1992,1-7页.

67. Ten accessions representing five grass genera (Oryza, Zea, Setaria, Triticum, and Phyllostachys) were used.

根据遗传距离建立了一个聚类树。

68. , the germination and the root growth of Zea mays L. were stimulated while those of Arachis hypogaea L were inhibited.

橡胶根系周围土壤对玉米种子的萌发和根生长都有少量促进作用，橡胶根系周围的土壤对花生的萌发和根生长有抑制作用。

69. Nitrogen uptake intensity of Wancao 2 enhanced gradually,and that of Zea mexican presented an odd peak curve.

氮素吸收强度皖草2号逐渐增加,墨西哥玉米呈单峰曲线变化。

70. Nitrogen uptake intensity of Wancan 2 enhanced gradually, and that of Zea mexican presented an odd peak curve.

氮素吸收强度皖草2号逐渐增加，墨西哥玉米呈单峰曲线变化。

71. The effects of Calcium Chloride on improving the salt resistance of Zea mays L.

氯化钙在提高玉米抗盐性方面的作用。

72. To identify the genes controlling water stress response in maize (Zea mays) seedlings, suppression subtractive hybridization (SSH) was performed using mixed cDNAs pre.

水分胁迫严重影响植物生长及作物生产，它是主要的非生物胁迫因子之一。

73. Comparative Physical Localization of Rice Pib Gene and Its Linked RFLP Markers in Oryza sativa, O. Officinalis and Zea mays

水稻Pib基因及其连锁RFLP标记在栽培稻、药用野生稻和玉米中的比较物理定位

74. Effects of Complex Saline-Alkafi Stress On The Seed Germination of Zea mays L.

混合盐碱胁迫对玉米种子萌发的影响。

75. A variety of corn, Zea mays everta, having hard kernels that burst to form white, irregularly shaped puffs when heated.

爆玉米花:玉米的一种爆花玉米,具有加热时会爆裂成松软、形状不规则的白色一团的硬壳。

76. Pop corn( Zea mays L.var. everta Sturt)

爆裂玉米

77. Corn (Zea mays L.)

玉米

78. The Constituents and Functions of Chloroplasts among Maize (Zea mays L. ) Zhong Dan 14 and Its Parents

玉米(Zea mays L.)中单14号及亲本叶绿体的组分和功能比较

79. The development of vein in Zea mays L.

玉米(Zea mays L.)叶脉发育的研究

80. ALLOZYME POLYMORPHISM WITHIN AND AMONG MAIZE(ZEA MAYSL.)LOCAL VARIETIES AND EXOTIC POPULATIONS

玉米10份地方品种和4份外来群体同工酶位点的遗传多样性