Regulator Collection

Fowlers Steam Engine
Fowlers patent engine and windlass for steam-ploughing

REGULATORS REVOLT, 1771. Attempt to Pacify the Regulators. Edmund Fanning (far right)
REGULATORS REVOLT, 1771. Attempt to Pacify the Regulators. Edmund Fanning (far right, on opposite shore) attempting to pacify the Regulators, led by Ninian Bell Hamilton

Leptin, molecular model. This hormone is produced by adipose (fat) tissue. It interacts with receptors in the brains hypothalamus to signal when a person is full

Plan and elevation of a blast furnace, showing the blowing engine, water blast regulator
5309366 Plan and elevation of a blast furnace, showing the blowing engine, water blast regulator, and the tuyeres supplying the blast to the furnace; (add.info)

Le regulateur, 19th century. Creator: Honore Daumier
Le regulateur, 19th century. Monomaniacs - The regulator

Photographs of boats and engineering work on the Nile Delta irrigation. Captioned, Elegant Irrigation: Britain's notable engineering feat on the Nile Delta'

A close up view of the dial and movement of a Louis XVI ormolu
1764973 A close up view of the dial and movement of a Louis XVI ormolu and patinated bronze-mounted mahogany longcase regulator with year calendar and equation of time, c.1790 (ornolu)

Visit to a Clerkenwell watch factory (engraving)
582897 Visit to a Clerkenwell watch factory (engraving) by English School, (19th century); Private Collection; (add.info.: Visit to a Clerkenwell watch factory)

Elevation and section of a blast furnace works with water regulator, early 19th century. Copperplate engraving by Wilson Lowry after a drawing by David Mushet from Abraham Rees Cyclopedia or

Cabinetmaker and Upholsterer (engraving)
2801952 Cabinetmaker and Upholsterer (engraving) by English School, (19th century); Private Collection; (add.info.: Cabinetmaker and Upholsterer)

A 19th century deep sea diver wearing rubber coated diving suit with helmet
2662542 A 19th century deep sea diver wearing rubber coated diving suit with helmet and tank regulator, from Les Merveilles de la Science, published c.1870 (engraving) by French School

The Agricultural Exhibition at Kilburn (engraving)
1099664 The Agricultural Exhibition at Kilburn (engraving) by English School, (19th century); Private Collection; (add.info.: The Agricultural Exhibition at Kilburn)

Visit to a Clerkenwell Clock Factory (engraving)
1102261 Visit to a Clerkenwell Clock Factory (engraving) by English School, (19th century); Private Collection; (add.info.: Visit to a Clerkenwell Clock Factory)

Mr Edisons "Perfected Phonograph, "just received in London from New York (engraving)
1041402 Mr Edisons " Perfected Phonograph, " just received in London from New York (engraving) by English School

Lieutenant Commander Lionel "Buster"Crabb of the Royal Navy
Lieutenant Commander Lionel " Buster" Crabb of the Royal Navy, pictured at Livorno in Northern Italy during the Second World War

Micronesia, Palau, Scuba Diver With Schooling Bigeye Jacks (Caranx Sexfasciatus)

Parathyroid hormone molecule. Computer model showing the structure of parathyroid hormone (PTH), or parathormone. Atoms are colour-coded (carbon: dark grey, hydrogen: light grey, oxygen: red)

Assiut Barrage on the Nile
Constructing the Assiut of Asyut Barrage on the River Nile in Egypt, about 350 miles downstream of the Aswan Dam. The dam was built in order to divert the waters of the Nile into Egypts largest

AD: BITTERS, c1868. American advertisement for Dewdrop Bitters, the great American stomach regulator. Lithograph, c1868

Watts centrifugal regulator

Clerkenwell Clock Factory: the Regulator and General Clock Shop, Uk

Clerkenwell Clock Factory: The Regulator And General Clock Shop, UK

Compressed Oil Gas for Lighting Cars, Steamboats, and Buoys: Pintsch Regulator, 1882

Sirtuin enzyme and p53, artwork C017 / 3659
Sirtuin enzyme and p53. Computer artwork of a sirtuin (Sir2) enzyme (pink) bound to a p53 peptide (orange). Sir2 enzymes form a unique class of NAD(+)

Sirtuin enzyme and p53, artwork C017 / 3658
Sirtuin enzyme and p53. Computer artwork of a sirtuin (Sir2) enzyme (pink) bound to a p53 peptide (orange). Sir2 enzymes form a unique class of NAD(+)

SIRT3 molecule, artwork C017 / 3657
SIRT3 molecule. Computer artwork showing the structure of a molecule of NAD-dependent deacetylase sirtuin-3, mitochondrial (SIRT3)

Radiator thermostat F006 / 7101
Radiator thermostat

Sirtuin enzyme and p53, artwork C017 / 3660
Sirtuin enzyme and p53. Computer artwork of a sirtuin (Sir2) enzyme (blue) bound to a p53 peptide (pink). Sir2 enzymes form a unique class of NAD(+)

H-Ras p21 oncogene protein F006 / 9766
H-Ras p21 oncogene protein, molecular model. The Ras proteins are involved in transmitting signals within cells. Excessive signalling can lead to conditions such as cancer

H-Ras p21 oncogene protein F006 / 9763
H-Ras p21 oncogene protein, molecular model. The Ras proteins are involved in transmitting signals within cells. Excessive signalling can lead to conditions such as cancer

Insulin molecule F006 / 9761
Insulin molecule. Molecular model of the hormone insulin from a pig. Insulin consists of two peptide chains, A and B, which are linked by disulphide bridges

Insulin molecule F006 / 9625
Insulin, molecular model. Insulin plays an important role in blood sugar regulation. It is released from the pancreas when blood sugar levels are high, for example after a meal

Insulin molecule F006 / 9605
Insulin molecule. Molecular model of the hormone insulin. Insulin consists of two peptide chains, A and B, which are linked by disulphide bridges

Iron-regulatory protein, molecular model F006 / 9565
Iron-regulatory protein. Molecular model of iron regulatory protein 1 (IRP1). Depending on the conformation of IRP1, it can acts as either a regulator of mRNA (messenger RNA) or an enzyme

Plant hormone regulator, molecular model F006 / 9545
Plant hormone regulator. Molecular model of Ia-amidohydrolase from thale cress (Arabidopsis thaliana). This enzyme acts to release the plant hormone indoe-3-acetic acid from its storage form

Neuropeptide Y neurotransmitter molecule F006 / 9493
Neuropeptide Y neurotransmitter molecule. Molecular model showing the structure of the neurotransmitter neuropeptide Y (NPY). NPY is found in the brain and autonomic nervous system

Transcription factor and DNA molecule F006 / 9484
Transcription factor and DNA molecule. Molecular model of glucocorticoid receptor (GR) transcription factor protein (pink and blue) complexed with a molecule of DNA (deoxyribonucleic acid)

Androgen receptor, molecular model F006 / 9483
Androgen receptor. Molecular model of the DNA-binding region of an androgen receptor (pink and yellow) complexed with DNA (deoxyribonucleic acid, blue and red)

Central glycolytic gene regulator protein C016 / 0549
Central glycolytic gene regulator (CGGR) protein, molecular model. This protein binds to DNA (deoxyribonucleic acid) in the absence of glucose, blocking the transcription of certain genes

UVR8 protein molecule C014 / 4913
UVR8 protein molecule. Computer model showing photoreception of UV-B (ultraviolet-B) light rays (white beam, left) by a UVR8 protein, whose secondary structure (purple ribbons) is shown

Leptin molecule C014 / 4904
Leptin molecule. Computer model showing the structure of a molecule of the hormone leptin. Leptin is produced by adipose (fat) tissue

Peptide YY obesity hormone molecule C014 / 4911
Peptide YY obesity hormone molecule. Computer model showing the crystal structure of a molecule of the hormone peptide YY (PYY, or PYY3-36)

Watts governor on a steam engine. Photographed in Torre del Mar, Spain

Peptide YY obesity hormone molecule C014 / 4910
Peptide YY obesity hormone molecule. Computer model showing the crystal structure of a molecule of the hormone peptide YY (PYY, or PYY3-36)

Leptin molecule C014 / 4907
Leptin molecule. Computer model showing the crystal structure of a molecule of the hormone leptin. Leptin is produced by adipose (fat) tissue

Thermostatic radiator valve. This is a self-regulating device that once set by hand adjusts itself to control the amount and temperature of the hot water flowing into the radiator

Activated ghrelin hormone molecule C014 / 4902
Activated ghrelin hormone molecule. Computer model showing the crystal structure of the human hormone ghrelin. The crystal structure consists of both the secondary structure

Activated ghrelin hormone molecule C014 / 4903
Activated ghrelin hormone molecule. Computer model showing the structure of the human hormone ghrelin. Atoms are colour-coded spheres (carbon: grey, oxygen: red, nitrogen: blue)

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"Revolutionizing Power: The Regulator's Role in History" In the annals of history, one cannot overlook the significance of a regulator. From Fowlers Steam Engine to Edmund Fanning's attempt at pacifying the Regulators revolt in 1771, these mechanisms have left an indelible mark on society. The journey begins with Fowlers Steam Engine, a marvel that propelled industrialization forward. Its power and efficiency transformed landscapes and revolutionized transportation, forever changing the course of human progress. Speaking of revolutions, let us not forget the infamous "Regulators Revolt" in 1771. Led by Ninian Bell Hamilton along the picturesque Eno River near Hillsborough, North Carolina, this uprising sought justice against oppressive forces. Wood engravings from the 19th century capture this momentous event for posterity. But they are not limited to political uprisings alone; they extend their influence across various fields. Take Leptin, for instance - a molecular model that unraveled mysteries surrounding appetite regulation and obesity. This breakthrough discovery paved new paths towards understanding our complex biology. Moving away from science to engineering feats, we find ourselves amidst elegant irrigation on Britain's notable achievement -the Nile Delta irrigation system. Photographs showcase boats and engineering work that brought life-giving water to arid lands while exemplifying mankind's ingenuity. Delving into artistry intertwined with precision craftsmanship brings us face-to-face with Louis XVI ormolu timepieces. A close-up view reveals intricate dials and movements meticulously crafted by skilled artisans who elevated horology to an art form. A visit to a Clerkenwell watch factory transports us back in time as we witness master craftsmen honing their skills amidst gears and springs. Their dedication ensures every tick resonates with perfection –a testament to human innovation throughout centuries. From timekeeping devices to blast furnace works shaping our industrial landscape –regulators play pivotal roles in every domain.