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Related Concept Videos

Hormonal Regulation01:33

Hormonal Regulation

The renin-aldosterone system is an endocrine system which guides the renal absorption of water and electrolytes, thus managing blood pressure and osmoregulation. Activation of the system begins in the kidneys with a small cluster of cells adjacent to the afferent and efferent blood vessels of the renal corpuscle. As the nephrons are filtering blood, juxtaglomerular cells monitor blood pressure. If they detect a decrease in pressure, they release the hormone renin into the bloodstream.
Renal Regulation of Acid-Base Balance01:29

Renal Regulation of Acid-Base Balance

Metabolic reactions in the body produce nonvolatile acids, such as sulfuric acid, which generate an acid load of approximately 1 mEq of H+ per kilogram of body weight daily. Excreting H+ in the urine is essential to balance this acid load.
In the kidneys, cells within the proximal convoluted tubules (PCT) and the collecting ducts secrete hydrogen ions (H+) into the tubular fluid. Specifically, in the PCT, Na+/H+ antiporters secrete H+ while reabsorbing Na+.
However, the intercalated cells in...
Introduction to Urinary System01:13

Introduction to Urinary System

The urinary system consists of two kidneys, two ureters, the urinary bladder, and the urethra.
The kidneys are bean-shaped organs located in the retroperitoneal space, on either side of the vertebral column, between the T12 and L3 vertebrae. They are partially protected by the rib cage and surrounded by perirenal fat, which provides cushioning. They are responsible for urine formation and play critical roles in regulating blood pressure, electrolyte levels, and hormone production. The ureters...
Blood and Nerve Supply to the Kidney01:18

Blood and Nerve Supply to the Kidney

The kidneys are vital organs responsible for filtering and cleaning blood, removing waste products, and regulating electrolyte levels. To perform these essential functions, they require a constant and robust blood supply.
Bloody Supply to the Kidneys:
The kidneys receive their blood supply from the renal arteries, which branch off from the abdominal aorta—the main artery supplying the abdomen and lower body. The renal arteries enter the kidneys at the hilum, a notch on the medial side of each...
Glomerular Filtration Rate and its Regulation01:28

Glomerular Filtration Rate and its Regulation

The Glomerular Filtration Rate (GFR) is a measure of kidney function, reflecting the volume of filtrate formed per minute in the kidneys. On average, GFR is approximately 125 mL/min in males and 105 mL/min in females. Maintaining a relatively constant GFR is essential for the kidneys to effectively regulate body fluid homeostasis and maintain extracellular stability.
GFR regulation involves two primary intrinsic controls: the myogenic and tubuloglomerular feedback mechanisms.
The myogenic...
Renal Corpuscle01:20

Renal Corpuscle

The glomerulus and Bowman's capsule are two essential components of the nephron, which is the functional unit of the kidney. These microscopic structures play a critical role in the process of blood filtration to produce urine.
Glomerulus: Structure and Function
The glomerulus is a tiny, intricate network of capillaries located at the beginning of the nephron. It's enveloped by the Bowman's capsule and receives its blood supply from an afferent arteriole, which divides into numerous capillaries...

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Related Experiment Video

Updated: Jun 17, 2026

Isolation and Culture of Cells from the Nephrogenic Zone of the Embryonic Mouse Kidney
08:06

Isolation and Culture of Cells from the Nephrogenic Zone of the Embryonic Mouse Kidney

Published on: April 22, 2011

Riboregulators in kidney development and function.

Dwi Setyowati Karolina1, E M Wintour, John Bertram

  • 1Department of Biochemistry, YLL School of Medicine, National University of Singapore, 8 Medical Drive, Singapore 117597, Singapore.

Biochimie
|January 5, 2010
PubMed
Summary
This summary is machine-generated.

MicroRNAs, small non-coding RNAs, are key regulators of gene activity. Their dysregulation is linked to kidney diseases, highlighting their importance in renal development and pathology.

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Isolation and Culture of Cells from the Nephrogenic Zone of the Embryonic Mouse Kidney
08:06

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In Utero Intra-cardiac Tomato-lectin Injections on Mouse Embryos to Gauge Renal Blood Flow
10:25

In Utero Intra-cardiac Tomato-lectin Injections on Mouse Embryos to Gauge Renal Blood Flow

Published on: February 4, 2015

Area of Science:

  • Molecular Biology
  • Genetics
  • Nephrology

Background:

  • MicroRNAs (miRNAs) are small non-coding RNAs regulating gene expression.
  • miRNAs play roles in diverse biological processes and are implicated in various diseases.
  • Emerging research highlights miRNAs' significance in renal development and pathology.

Purpose of the Study:

  • To explore the role of microRNAs in kidney development and disease.
  • To review the current understanding of miRNA involvement in renal pathology.
  • To discuss advancements in miRNA identification and manipulation for kidney research.

Main Methods:

  • MicroRNA profiling studies to identify kidney-specific or region-specific miRNAs.
  • Analysis of knockout studies demonstrating the critical role of miRNAs in renal function.
  • Review of identified miRNAs in renal disease models (cancers, diabetic nephropathy, polycystic kidney disease).

Main Results:

  • MicroRNA profiling reveals tissue-specific miRNAs in the kidney.
  • Knockout studies confirm essential roles for miRNAs in normal renal growth and function.
  • Specific miRNAs are associated with various kidney diseases, including cancers and nephropathies.

Conclusions:

  • MicroRNAs are crucial regulators in renal development and function.
  • Dysregulated miRNA expression is linked to kidney diseases.
  • Further research into miRNA activity, signatures, and manipulation holds promise for kidney research and therapeutics.