Transport in Plants

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Temperature and pressure

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Size (density) of the substances. Smaller substances diffuse faster.

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Substances soluble in lipids diffuse through the membrane faster.

2. FÅÇÏLÏTÅTËD DÏFFÜSÏØÑ

It is the diffusion of hydrophilic substances with the help of membrane

protein channels and without expenditure of ATP energy.

It also needs a

concentration gradient.

It is very specific. Cell

selects substances for

uptake. It is sensitive to

inhibitors that react with

protein side chains.

Porins form huge pores in the

outer membranes of plastids,

mitochondria & some

bacteria. Molecules having

size of small proteins can

pass through them.

An extracellular molecule

binds to the transport

protein. Then, it rotates and

releases the molecule inside

the cell. E.g. water channels

– made up of 8 types of

aquaporins.

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Transport rate reaches a maximum when all the protein transporters are

being used (saturation).

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Some protein channels are always open; others can be controlled. Some

are large sized. E.g. Porins.

PÅSSÏVË ÜÑÏPØRTS, SÝMPØRTS ÅÑD ÅÑTÏPØRTS

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Uniport: A molecule alone moves across a membrane independent of

other molecules.

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Symport: Two molecules together cross the membrane in same

direction.

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Antiport: Two molecules move in opposite directions.

ÅÇTÏVË TRÅÑSPØRT

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It is the transport of molecules against a concentration gradient (from

lower concentrated region to higher concentrated region) with the

expenditure of energy.

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It is carried out by membrane-proteins. Pumps are proteins that use

energy to transport substances across cell membrane (‘uphill’ transport).

(AIPMT 2009)