| Biomolecule |
Algae species studied |
Observations |
Conclusions |
Ref |
| Proteins |
|
|
|
|
| Adhesion proteins |
Coccomyxa sp. and Glaphyrella trebouziodes |
Amide III band peaks at 1224 cm-1 and 1260 cm-1 |
Consistent with generic amyloid structure with strong hydrophobic core |
55 |
| Hemoglobin |
C. Eugametos |
Fe-CN ferric derivative peak at 440cm-1 1502 cm-1 and 1374 cm-1 peaks |
Fe-C-N moiety adopts highly bent structure due to H bonding
Six coordinated low spin heme iron with distal ligant tyrosinate |
38 |
| Carbohydrates |
|
|
|
|
| Polysaccharides |
|
Peaks in the range 350-600 cm-1 |
Skeletal pyranose ring modes
Glycosidic stretching modes
CH2 and C-OH deformations |
56,44 |
| β-D-glucosides |
|
377 cm-1 characteristic peak |
|
56,44 |
| α-D-glucosides |
|
Strong peaks from 479 to 483 cm-1
Peak at 543cm-1 |
Peaks from Amylopectin and amylase
Dextran peak |
56,44 |
| Alginates |
|
Peaks at <1300 cm-1
Peaks at >1300 cm-1
(Figure 2) |
Vibration of polymer backbone
Stretching vibrations of carboxylate groups |
46 |
| Calcium Alginate |
|
Change of band position from alginates
Most prominent: 1413 cm-1 to 1433 cm-1 |
Symmetric COO- stretching peak |
46 |
| κ-carrageenan and ι-carrageenan |
Eucheuma cottonii
Eucheuma spinosa |
Various peaks from 700 to 1200 cm-1 |
Peaks are assigned to respective molecular structure of carrageenans |
48 |
| |
|
|
|
|
|
Lipids |
|
|
|
|
Hydrocarbons
(Figure 3) |
Botryococcus braunii |
1650-1670 cm-1 and 2800-3000 cm-1peaks |
Double bond stretching peak in long chain unsaturated hydrocarbons |
57 |
| |
Chlorella sorokiniana
Neochloris oleoabundans |
1650 cm-1 peak
2800-3000 cm-1 peak |
C=C stretching peak
C=C-H vibration peak |
16 |
| |
Botryococcus sedeticus
Chlamydomonas sp.
Trachydiscus minutes |
1656 cm-1 peak
1445 cm-1 peak |
cis C=C stretching mode proportional to no. of unsaturated bonds
CH2 scissoring mode proportional to no. of saturated bonds
Trachydiscus minutus has significantly higher content of unsaturated fatty acids |
56 |
|
Pigments: Chlorophylls |
|
|
|
|
Chl a
(Figure 4) |
|
Peaks in the range 1100-1600 cm-1
Peaks in the range 700-950 cm-1
Peaks <700 cm-1 and from 900-1000 cm-1
Strong 306 cm-1 peak and absence of 317 cm-1 peak |
Stretching motions of C-C and C-N bonds
Planar deformations of tetrapyrrol macrocycle
Mg related vibrations
Mg atoms in hexacoordinated state |
35 |
| Chl b |
|
Peaks similar to Chl a |
Chl a and Chl b have very similar structure |
35 |
Chl c
(Figure 5) |
|
1361 cm-1 peak |
C-N ring breathing mode |
58 |
Chl d
(Figure 6) |
Acaryochloris marina |
Very different Raman response as compared to Chl a and Chl b |
Presence of formyl group at C-3 position |
37 |
|
Pigments: Carotenes |
|
|
|
|
β-carotene
(Figure 7) |
Chlorella sorokiniana
Neochloris oleoabundans
Euglena, Chlamydomonas |
Peak at 1520 cm-1
Peak at 1157 cm-1
Peak at 1000 cm-1
Strong peak in the eyespot region |
C=C stretching mode
C-C stretching mode
C-CH3 stretching mode
High content of carotenoids in eyespot region |
59, 16, 51-52, 60 |
| Nucleic acids |
|
|
|
|
| DNA and RNA |
|
Peaks between 600 cm-1 and 800 cm-1
Intense peak at 1671 cm-1
Peak at 1100 cm-1 |
Ring breathing modes of DNA and RNA bases
C=O stretch vibrations
Symmetric PO-2 stretching vibration |
53 |
