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Difference Between Thylakoid and Stroma

October 23, 2017Posted byDr.Samanthi

Key Difference – Thylakoidvs Stroma

In the context ofphotosynthesis,chloroplastsare the major organelles which initiate the process providing necessary conditions for photosynthesis. The structure of the chloroplast is developed to assist the process of photosynthesis. Achloroplastis aplastidwhich is spherical in structure. Thylakoid and stroma are two unique structures present in the chloroplast. A thylakoid is a membrane-bound compartment in the chloroplast which consists of different embedded molecules to initiate the light-dependent reaction of photosynthesis. Stroma is thecytoplasmof the chloroplast which is composed of a transparent liquid, in which thylakoid (grana), sub organelles,DNA,ribosome,lipiddroplets andstarchgrains are present.Thus, primarily thekey difference类囊体与基质之间的thylakloid is a membrane-bound compartment situated in the chloroplast whereas the stroma is the cytoplasm of the Chloroplast.

CONTENTS

1.Overview and Key Difference
2.What is a Thylakoid
3.What is Stroma
4.Similarities Between Thylakoid and Stroma
5.Side by Side Comparison – Thylakoid vs Stroma in Tabular Form
6.Summary

What is a Thylakoid?

Thylakoid is anorganellefound in the chloroplasts as well as incyanobacteria. It consists of a membrane which is surrounded by a thylakoid lumen. This thylakoid in the chloroplast usually forms stacks and which are calledgrana. The grana are linked with other grana by intergranal lamellae to form single functional compartments. There can be about 10 to 100 grana in chloroplasts. The thylakoid is anchored in the stroma.

The light-dependent reaction in photosynthesis is carried out in the thylakoid as it contains the photosynthetic pigments likechlorophyll. The grana which are stacked in the chloroplast gives a high surface area to the volume ratio of the chloroplast while increasing the efficiency of photosynthesis. The membrane of the thylakoid contains a lipid bilayer which consists of distinctive features of the inner membrane of chloroplast andprokaryoticmembranes. This lipid bilayer is involved in the interrelationship of the structure and the function ofphotosystems.

Difference Between Thylakoid and Stroma

Figure 01: Thylakoid

In higher plants, the thylakoid membranes are primarily composed ofphospholipidsand galactolipids. The thylakoid lumen which is enclosed by the thylakoid membrane is a continuous aqueous phase. It is important especially forphotophosphorylationin photosynthesis. The protons are pumped into the lumen via the membrane while reducing the pH level.

The reactions which take place in a thylakoid include water photolysis, the electron transport chain andATPsynthesis. The initial step is water photolysis. It takes place in the thylakoid lumen. Here, the energy from light is used to reduce or split the water molecules to produce electrons needed for the electron transport chain. The electrons are moved to the photosystems. These photosystems contain a light-harvesting complex called the antenna complex. The antenna complex uses chlorophyll and other photosynthetic pigments to gather light at various wavelengths. ATP is produced in photosystems, using an ATP synthase enzyme thylakoid synthesize ATP. This ATP synthase enzyme is assimilated in the thylakoid membrane.

Although the thylakoid in plants forms stacks called grana, thylakoid is not stacked in some algae even if they are eukaryotes. Cyanobacteria do not contain chloroplasts, but the cell itself acts as a thylakoid. A cyanobacterium has a cell wall, a cell membrane, and a thylakoid membrane. This thylakoid membrane does not form grana but forms sheet-like structures in parallel that create enough space for light harvesting structures to carry out photosynthesis.

What is Stroma?

Stroma is referred to a transparent fluid which is filled in the inner space of chloroplast. The stroma surrounds the thylakoid and grana within the chloroplast. The stroma contains starch, grana, organelles like chloroplast DNA and ribosomes and also enzymes which are needed for the light-independent reactions of photosynthesis. As the stroma consists of Chloroplast DNA andribosomes, it is also the site of chloroplastDNA replication,transcription, and translationof some chloroplast proteins. The biochemical reactions of photosynthesis take place in the stroma, and these reactions are called light-independent reactions or theCalvin cycle. These reactions include three phases namely, carbon fixation, reduction reactions and ribulose 1.5- bisphosphate regeneration.

Key Difference Between Thylakoid and Stroma

Figure 02: Stroma

The proteins which are present in the stroma are important in the light-independent reactions of photosynthesis and also in reactions which fix inorganic minerals in organic molecules. Chloroplast being an unusual organ also has the ability to carry out important activities of the cell. The stroma is needed for this because it not only carries out the light-independent reactions but also controls the chloroplast to withstand cellular stress conditions simultaneously signaling between different organelles. The stroma undergoesautophagyunder extreme stress conditions without damaging or destroying the inner structures and pigment molecules. Finger-like projections from the stroma do not contain thylakoid but, are correlated with the nucleus and the endoplasmic reticulum to carry out regulatory mechanisms in the chloroplast.

What are the Similarities Between Thylakoid and Stroma?

  • Both structures are present inside the chloroplast.
  • Enzymes and pigments which are essential for photosynthesis are usually embedded in both thylakoid and stroma.

What is the Difference Between Thylakoid and Stroma?

Thylakoid vs Stroma

Thylakoid is a membranous organelle present in the chloroplast.
Stroma is the cytoplasm of the chloroplast.
Function
Thylakoid provides necessary factors and conditions to initiate the light-dependent reaction of photosynthesis. The light-independent reaction of photosynthesis is taken place in the stroma of the chloroplast.

Summary – Thylakoidvs Stroma

The chloroplasts are flat structures found in the cytoplasm of plant cells. They consist of thylakoids which are small membrane-bound compartments. They are the sites of the light-dependent reaction of photosynthesis. Thylakoid is usually stacked to form structures called grana. Stroma is also an important component of the chloroplast. It is a colorless fluid matrix situated in the inner portion of the chloroplast. The thylakoids are surrounded by stroma. The stroma is the site where the light-independent reactions of photosynthesis take place. The enzymes and pigments which are essential for photosynthesis are usually embedded in both thylakoid and stroma. This can be described as the difference between Thylakoids and Stroma.

Download the PDF Version of Thylakoid vs Stroma

You can download PDF version of this article and use it for offline purposes as per citation note. Please download PDF version hereDifference Between Thylakoid and Stroma

Reference:

1.“Mitochondria and chloroplasts.” Khan Academy.Available here
2.“Photophosphorylation (Cyclic and Non-Cyclic).” Photophosphorylation (Cyclic and Non-Cyclic)Available here
3.Edi的tors of Encyclopædia Britannica. “Chloroplast.” Encyclopædia Britannica, Encyclopædia Britannica, inc., 17 Oct. 2016.Available here

Image Courtesy:

1.’Thylakoid2′ Public Domain viaCommons Wikimedia
2.’Chloroplast structure’ By Kelvinsong – Own work(CC BY-SA 3.0)viaCommons Wikimedia

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Filed Under:BotanyTagged With:Compare Thylakoid and Stroma,stroma,Stroma characteristics,Stroma Definition,Stroma Functions,Thylakoid,Thylakoid and Stroma Differences,Thylakoid and Stroma Similarities,Thylakoid Characteristics,Thylakoid Definition,Thylakoid Functions,Thylakoid vs Stroma

About the Author:Dr.Samanthi

Dr.Samanthi Udayangani holds a B.Sc. Degree in Plant Science, M.Sc. in Molecular and Applied Microbiology, and PhD in Applied Microbiology. Her research interests include Bio-fertilizers, Plant-Microbe Interactions, Molecular Microbiology, Soil Fungi, and Fungal Ecology.

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