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相关概念视频

The Nitrogen Cycle01:49

The Nitrogen Cycle

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Nitrogen atoms, present in all proteins and DNA, are recycled between abiotic and biotic components of the ecosystem. However, the primary form of nitrogen on Earth is nitrogen gas, which cannot be used by most animals and plants. Thus, nitrogen gas must first be converted into a usable form by nitrogen-fixing bacteria before it can be cycled through other living organisms. The use of nitrogen-containing fertilizers and animal waste products in human agriculture has greatly influenced the...
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Overview of Nitrogen Metabolism01:20

Overview of Nitrogen Metabolism

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Nitrogen is a very important element for life because it is a major constituent of proteins and nucleic acids. It is a macronutrient, and in nature, it is recycled from organic compounds and stored in the form of  ammonia, ammonium ions, nitrate, nitrite, or  nitrogen gas by many metabolic processes. Many of these metabolic processes are carried out only by prokaryotes.
The largest pool of nitrogen available in the terrestrial ecosystem is gaseous nitrogen (N2) from the air, but this...
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Alternative RNA Splicing02:18

Alternative RNA Splicing

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Alternative RNA splicing is the regulated splicing of exons and introns to produce different mature mRNAs from a single pre-mRNA. Unlike in constitutive splicing where a single gene produces a single type of mRNA, alternative splicing allows an organism to produce multiple proteins from a single gene and plays an important role in protein diversity.
There are five types of alternative RNA splicing that vary in the ways the pre-mRNA segments are removed or retained in the mature mRNA. The first...
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Alternative RNA Splicing02:18

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Inorganic Nitrogen Assimilation01:22

Inorganic Nitrogen Assimilation

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Nitrogen is an essential element in biological systems, forming a crucial component of proteins, nucleic acids, and other cellular constituents. Many bacteria and archaea acquire nitrogen in the form of nitrate (NO₃⁻) or ammonia (NH₃), which are then assimilated into biomolecules through specific enzymatic pathways.Assimilatory Nitrate ReductionWhen nitrate enters the cell, it undergoes a two-step reduction process known as assimilatory nitrate reduction. Initially, the enzyme...
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Chirality at Nitrogen, Phosphorus, and Sulfur02:30

Chirality at Nitrogen, Phosphorus, and Sulfur

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Chirality is most prevalent in carbon-based tetrahedral compounds, but this important facet of molecular symmetry extends to sp3-hybridized nitrogen, phosphorus and sulfur centers, including trivalent molecules with lone pairs. Here, the lone pair behaves as a functional group in addition to the other three substituents to form an analogous tetrahedral center that can be chiral.
A consequence of chirality is the need for enantiomeric resolution. While this is theoretically possible for all...
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Analysis of N-glycans from Raphanus sativus Cultivars Using PNGase H+
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通过替代源优化卜 (Raphanus sativus L.) 的生产.

V A Targino1, T J Dias1, V F O Sousa2

  • 1Universidade Federal da Paraíba, Areia, PB, Brasil.

Brazilian journal of biology = Revista brasleira de biologia
|February 4, 2026
PubMed
概括
此摘要是机器生成的。

化肥显著影响卜的生长. 15公斤/公的尿素是最有效的提高卜产量和发展,优化营养使用和减少对环境的影响.

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科学领域:

  • 农业学是一种农业学.
  • 植物生理学 植物生理学
  • 土壤科学 土壤科学

背景情况:

  • 卜 (Raphanus sativus) 是一种富含营养的型蔬菜,适合作物旋转.
  • 优化 (N) 施肥对于卜的生长至关重要,可以最大限度地减少漏损失,环境损害和生产成本.

研究的目的:

  • 评估不同 (N) 源和剂量对卜生长和生理学的影响.
  • 确定最佳的N施肥策略,以最大限度地提高卜产量和质量.

主要方法:

  • 一个温室实验使用了一个随机的块设计与2x5的因数排列.
  • 治疗包括两种N来源 (尿素和硫酸) 和五种剂量 (0,15,30,45,60公斤N/ha).
  • 评估的参数包括植物的高度,生物质,叶面积,气体交换,叶绿素含量和光.

主要成果:

  • 的来源和剂量对卜生长产生了积极的影响.
  • 尿素的应用在促进植物生长和叶绿素指数 (叶绿素a和全叶绿素) 中显示出更高的效率.
  • 用15公斤N/ha的尿素施肥使卜生长和产量显著增加.

结论:

  • 与硫酸相比,尿素是种植卜的更有效的气来源.
  • 建议以15公斤N/ha的尿素的应用速度进行,以获得最佳的卜生长和产量.
  • 战略性化肥可以提高卜的生产力,同时减轻环境风险.