Mabinlin

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Mabinlin 1
Identifiers
Symbol 2SS1_CAPMA
UniProt P80351
Mabinlin 2

Also known as: Mabinlin II, MAB II
Identifiers
Symbol 2SS2_CAPMA
PDB 2DS2 (RCSB PDB PDBe PDBj)
UniProt P30233
Mabinlin 3
Identifiers
Symbol 2SS3_CAPMA
UniProt P80352
Mabinlin 4
Identifiers
Symbol 2SS4_CAPMA
UniProt P80353

Mabinlins are sweet-tasting proteins extracted from the seed of Mabinlang (Capparis masaikai Levl.), a Chinese plant growing in Yunnan province. There are four homologues. Mabinlin-2 was first isolated in 1983[1] and characterised in 1993,[2] and is the most extensively studied of the four. The other variants of mabinlin-1, -3 and -4 were discovered and characterised in 1994.[3]

Protein structures

The 4 mabinlins are very similar in their amino acids sequences (see below).

Chain A
M-1: EPLCRRQFQQ HQHLRACQRY IRRRAQRGGL VD
M-2: QLWRCQRQFL QHQRLRACQR FIHRRAQFGG QPD
M-3: EPLCRRQFQQ HQHLRACQRY LRRRAQRGGL AD
M-4: EPLCRRQFQQ HQHLRACQRY LRRRAQRG

Chain B
M-1: EQRGPALRLC CNQLRQVNKP CVCPVLRQAA HQQLYQGQIE GPRQVRQLFR AARNLPNICK IPAVGRCQFT RW
M-2: QPRRPALRQC CNQLRQVDRP CVCPVLRQAA QQVLQRQIIQ GPQQLRRLFD AARNLPNICN IPNIGACPFR AW
M-3: EQRGPALRLC CNQLRQVNKP CVCPVLRQAA HQQLYQGQIE GPRQVRRLFR AARNLPNICK IPAVGRCQFT RW
M-4: EQRGPALRLC CNQLRQVNKP CVCPVLRQAA HQQLYQGQIE GPRQVRRLFR AARNLPNICK IPAVGRCQFT RW
Amino acid sequence of Mabinlins homologues are adapted from Swiss-Prot biological database of protein.[4][5][6][7]

The molecular weights of Mabinlin-1, Mabinlin-3 and Mabinlin-4 are 12.3 kDa, 12.3 kDa and 11.9 kDa, respectively.[3]

With a molecular weight of 10.4kDa, mabinlin-2 is lighter than mabinlin-1. It is a heterodimer consisting of two different chains A and B. The A chain is composed of 33 amino acid residues and the B chain is composed of 72 amino acid residues. The B chain contains two intramolecular disulfide bonds and is connected to the A chain through two intermolecular disulfide bridges.[2][8]

Mabinlin-2 is the sweet-tasting protein with the highest known thermostability,[9] which is due to the presence of the four disulfide bridges.[10] It has been suggested also that the difference in the heat stability of the different mabinlin homologues is due to the presence of an arginine residue (heat-stable homologue) or a glutamine (heat-unstable homologue) at position 47 in the B-chain.[3]

Sweetness properties

Mabinlins sweetness were estimated to be about 100-400 times that of sucrose on molar basis, 10 times sucrose on a weight basis,[2][3] which make them less sweet than thaumatin (3000 times) but elicit a similar sweetness profile.[11]

The sweetness of mabinlin-2 is unchanged after 48 hours incubation at 80°C.[2]

Mabinlin-3 and -4 sweetness stayed unchanged after 1 hour at 80°C, while mabinlin-1 loses sweetness after 1 hour at the same condition.[3][12]

As a sweetener

Mabinlins, as proteins, are readily soluble in water and found to be highly sweet, however mabinlin-2 with its high heat stability has the best chance to be used as a sweetener.

During the past decade, attempts have been made to produce mabinlin-2 industrially. The sweet-tasting protein has been successfully synthesised by a stepwise solid-phase method in 1998, however the synthetic protein had an astringent-sweet taste.[8]

Mabinlin-2 has been expressed in transgenic potato tubers, but no explicit results have been reported yet.[13] However, patents to protect production of recombinant mabinlin by cloning and DNA sequencing have been issued.[14]

References

  1. Hu Z, He M (1983). "Studies on mabinlin, a sweet protein from the seeds of Capparis masaikai levl. I. extraction, purification and certain characteristics". Acta Botan. Yunnan. (5): 207–212. 
  2. 2.0 2.1 2.2 2.3 Liu X, Maeda S, Hu Z, Aiuchi T, Nakaya K, Kurihara Y (January 1993). "Purification, complete amino acid sequence and structural characterization of the heat-stable sweet protein, mabinlin II". Eur J Biochem 211 (1–2): 281–7. doi:10.1111/j.1432-1033.1993.tb19896.x. PMID 8425538. 
  3. 3.0 3.1 3.2 3.3 3.4 Nirasawa S, Nishino T, Katahira M, Uesugi S, Hu Z, Kurihara Y (August 1994). "Structures of heat-stable and unstable homologues of the sweet protein mabinlin. The difference in the heat stability is due to replacement of a single amino acid residue". Eur J Biochem 223 (3): 989–95. doi:10.1111/j.1432-1033.1994.tb19077.x. PMID 8055976. 
  4. UniProtKB/Swiss-Prot database entry for 2SS1_CAPMA (P80351).
  5. UniProtKB/Swiss-Prot database entry for 2SS2_CAPMA (P30233).
  6. UniProtKB/Swiss-Prot database entry for 2SS3_CAPMA (P80352).
  7. UniProtKB/Swiss-Prot database entry for 2SS4_CAPMA (P80353).
  8. 8.0 8.1 Kohmura M, Ariyoshi Y (October 1998). "Chemical synthesis and characterization of the sweet protein mabinlin II". Biopolymers 46 (4): 215–23. doi:10.1002/(SICI)1097-0282(19981005)46:4<215::AID-BIP3>3.0.CO;2-S. PMID 9715665. 
  9. Guan RJ, Zheng JM, Hu Z, Wang DC (July 2000). "Crystallization and preliminary X-ray analysis of the thermostable sweet protein mabinlin II". Acta Crystallogr D 56 (Pt 7): 918–9. doi:10.1107/S0907444900005850. PMID 10930844. 
  10. Nirasawa S, Liu X, Nishino T, Kurihara Y (October 1993). "Disulfide bridge structure of the heat-stable sweet protein mabinlin II". Biochim Biophys Acta 1202 (2): 277–80. doi:10.1016/0167-4838(93)90016-K. PMID 8399391. 
  11. Kurihara Y (1992). "Characteristics of antisweet substances, sweet proteins, and sweetness-inducing proteins". Crit Rev Food Sci. 32 (3): 231–52. doi:10.1080/10408399209527598. PMID 1418601. 
  12. Kurihara Y, Nirasawa S (1997). "Structures and activities of sweetness-inducing substances (miraculin, curculin, strogin) and the heat-stable sweet protein, mabinlin" (PDF). Foods and Food Ingredients Journal of Japan (174): 67–74. 
  13. LW Xiong and S Sun. Molecular cloning and transgenic expression of the sweet protein mabinlin in potato tubers. Plant Physiology 1996, 111, 147.
  14. US 6051758  S Sun, L Xiong, Z Hu and H Chen. Recombinant Sweet protein Mabinlin

See also

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