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Nitric Oxide Signaling Pathway01:28

Nitric Oxide Signaling Pathway

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Nitric oxide (NO), an inorganic gas, acts as a potent second messenger in most animal and plant tissues. NO diffuses out of the cells that produce it and enters the neighboring cells to generate a downstream response. NO synthase (NOS) catalyzes NO production by the deamination of the amino acid arginine. There are three isoforms of NOS. Endothelial cells have endothelial NOS (eNOS), nerve and muscle cells have neuronal NOS (nNOS), and macrophages produce inducible NOS (iNOS) upon exposure...
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Antianginal Drugs: Nitrates and β-Blockers01:16

Antianginal Drugs: Nitrates and β-Blockers

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In cardiovascular health, antianginal drugs combat angina pectoris — a condition marked by chest pain owing to diminished blood flow to the heart.
Organic nitrates,  such as nitroglycerin, play a pivotal role. Once metabolized, they liberate nitric oxide, a molecular marvel. Nitric oxide triggers guanylyl cyclase and augments cGMP production. This biochemical cascade orchestrates the relaxation of vascular smooth muscles, ushering in vasodilation and enhancing coronary blood flow....
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Antihypertensive Drugs: Vasodilators01:23

Antihypertensive Drugs: Vasodilators

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Vasodilators, primarily affecting the smooth muscles within arterial and venous walls, are commonly used for hypertension treatment. Medications such as minoxidil and hydralazine primarily target arteries and arterioles, while sodium nitroprusside acts on arterioles and venules. Minoxidil, functioning as a prodrug, is metabolized by hepatic sulfotransferase into its active form, minoxidil sulfate, after oral administration. This metabolite binds to the sulfonylurea receptor (SUR) component of...
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2° Amines to N-Nitrosamines: Reaction with NaNO201:20

2° Amines to N-Nitrosamines: Reaction with NaNO2

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Secondary amines react with nitrous acid to form N-nitrosamines, as depicted in Figure 1. Nitrous acid, a weak and unstable acid, is formed in situ from an aqueous solution of sodium nitrite and strong acids, such as hydrochloric acid or sulfuric acid, in cold conditions. In the presence of an acid, the nitrous acid gets protonated. The subsequent loss of water results in the formation of the electrophile known as nitrosonium ion.
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Hormonal Regulation of Blood Pressure01:17

Hormonal Regulation of Blood Pressure

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Endocrinal or hormonal intervention in the cardiovascular system is predominantly exerted by the catecholamines - epinephrine and norepinephrine, as well as a slew of hormones that interact with renal function to modulate blood volume.
Epinephrine and Norepinephrine
The adrenal medulla releases epinephrine and norepinephrine, catecholamines that enhance and extend the sympathetic or "fight or flight" physiological response. These hormones escalate heart rate and the force of contraction...
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Factors Influencing Heart Rate01:30

Factors Influencing Heart Rate

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The heart rate, or pulse rate, is a vital indicator of cardiovascular health. It reflects the number of times the heart beats per minute. Various physiological and environmental factors influence heart rate, increasing or decreasing cardiac output. Understanding these factors is crucial for assessing heart function and identifying potential health issues.
Let us explore the significant factors affecting heart rate, including age, body temperature, posture, acute pain, chemical influences,...
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Related Experiment Video

Updated: Mar 23, 2026

Preparation of Rat Skeletal Muscle Homogenates for Nitrate and Nitrite Measurements
07:19

Preparation of Rat Skeletal Muscle Homogenates for Nitrate and Nitrite Measurements

Published on: July 29, 2021

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Hormones and nitrate: a two-way connection.

Gabriel Krouk1

  • 1Laboratoire de Biochimie et Physiologie Moléculaire des Plantes, Institut de Biologie Intégrative des Plantes 'Claude Grignon', UMR CNRS, INRA, SupAgro, UM, Place Pierre Viala, 34060, Montpellier Cedex, France. gkrouk@gmail.com.

Plant Molecular Biology
|March 23, 2016
PubMed
Summary

Plants coordinate growth and nutrition through a feedback cycle where nitrogen signaling influences hormones, and hormones regulate nitrogen uptake. This interaction optimizes plant adaptation to environmental nutrient changes.

Keywords:
ABAABI2AuxinCHL1CytokininEthyleneHormonesNRT1.1NitrateNitrogenSignal interactions

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Area of Science:

  • Plant Biology
  • Nutrient Signaling
  • Hormonal Regulation

Background:

  • Plants face environmental fluctuations, particularly in soil nutrient concentration, impacting growth and development.
  • The intricate signaling crosstalk between nitrogen and plant hormones is not fully understood.
  • Nitrogen availability is crucial for plant physiological processes and adaptation.

Purpose of the Study:

  • To review how nitrate/nitrogen signaling influences hormonal pathways in plants.
  • To highlight the feedback mechanisms where hormonal pathways control nitrogen transport and assimilation.
  • To elucidate the feed-forward cycle coordinating plant growth and nutrition.

Main Methods:

  • Literature review of existing research on plant nitrogen and hormone signaling.
  • Analysis of studies investigating the molecular mechanisms of nutrient sensing and hormonal response.
  • Synthesis of evidence for feedback loops between nitrogen assimilation and growth regulation.

Main Results:

  • Nitrate/nitrogen availability directly impacts key hormonal pathways regulating plant growth.
  • Hormonal signaling pathways exhibit feedback control over nitrogen transport and assimilation processes.
  • A coordinated feed-forward cycle exists between plant nutrition and growth regulation.

Conclusions:

  • Nitrogen and hormonal signaling are intricately linked, forming a regulatory network for plant adaptation.
  • Feedback mechanisms ensure that plant growth is tightly coupled with nutrient availability.
  • Understanding this crosstalk is vital for improving crop resilience and yield in variable soil conditions.