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« Previous SpeciesLaurencia intermedia    Next SpeciesLaurencia irieii »

Semiochemicals of Laurencia intricata

Phylum:  Rhodophyta
Subphylum:  Eurhodophytina
Class:  Florideophyceae
Order:  Ceramiales
Family:  Rhodomelaceae
Subfamily:  
Genus:  Laurencia
Tribe:  Laurencieae
Author:  Lamouroux
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Bedoukain RussellIPM

Semiochemical(s):

  Kasmiati T  2016  Chem. Sci. J.  7:  
    aplysistatin    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Indonesia 
    palisadin A    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
    palisol    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
    5b-hydroxypalisadin B    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
 
  Mohammed KA  2004  J. Nat. Prod.  67: 2002   
    laurenditerpenol    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Discovery Bay, Jamaica 
 
  Suzuki M  2002b  Phytochem.  60: 861   
    itomanallene A    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Komesu, Itoman, Okinawa, Japan 
    itomanallene B    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
    itomanol    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
 
  Masuda M  2002  Phycol. Res.  50: 135   
    okamurallene    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Chinzei, Saga, Japan 
 
  Suzuki M  1991  Chem. Lett.  20: 33   
    deoxyokamurallene    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Bikuni, Hokkaido, Japan 
    isookamurallene    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
    okamurallene    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
 
  Cardellina JH  1982  Can. J. Chem.  60: 2675   
    bermudenynol    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Castle Harbour, Bermuda 
    bermudenynol acetate    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦    
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
 
  Horsley SB  1981  J. Org. Chem.  46: 5033   
    bicyclolaurencenol    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Castle Harbour, Bermuda 
 
  White RH  1978  Phytochem.  17: 939   
    intricenyne    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Key Largo, Florida, USA 
 
  White RH  1975  Phys. Chem. Sci. Res. Rep.  1: 633   
    cyclodebromoacetoxyintricatol    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		 
 
  McMillan JA  1974  Tetrahedron Lett.  15: 2039   
    acetoxyintrincatol    ¦Relative ratio of the component¦   ¦(*) indicates that compound is active¦   P
¦Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone¦
  
¦Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker¦
  
¦Amount
pg -   Picogram
ng -   Nanogram
µg -   Microgram
mg -   Milligram
g -   Gram¦
   		Key Cargo, Florida, USA 
 

Reference(s):

Kasmiati, T., Yoshioka, Y., Okamoto, T., and Ojika, M. 2016. Anti-phytopathogenic and anti-cytotoxic brominated sesquiterpenes from the Indonesian red seaweed Laurencia intricata. Chem. Sci. J. 7:3.
 
Mohammed, K.A., Hossain, C.F., Zhang, L., Bruick, R.K., Zhou, Y.D., and Nagle, D.G. 2004. Laurenditerpenol, a new diterpene from the tropical marine alga Laurencia intricata that potently inhibits HIF-1 mediated hypoxic signaling in breast tumor cells. J. Nat. Prod. 67:2002-2007.
 
Suzuki, M., Takahashi, Y., Mitome, Y., Itoh, T., Abe, T., and Masuda, M. 2002b. Brominated metabolites from an Okinawan Laurencia intricata. Phytochem. 60:861-867.
 
Masuda, M., Kawaguchi, S., Abe, T., Kawamoto, T., and Suzuki, M. 2002. Additional analysis of chemical diversity of the red algal genus Laurencia (Rhodomelaceae) from Japan. Phycol. Res. 50:135-144.
 
Suzuki, M., Kondo, H., and Tanaka, I. 1991. The absolute stereochemistry of okamurallene and its congeners, halogenated C15 nonterpenoids from the red alga Laurencia intricata. Chem. Lett. 20:33-34.
 
Cardellina, J.H., II., Horsley, S.B., Clardy, J., Leftow, S.R., and Meinwald, J. 1982. Secondary metabolites from the red alga Laurencia intricata: halogenated enynes. Can. J. Chem. 60:2675-2677.
 
Horsley, S.B., Cardellina, J.H., and Meinwald, J. 1981. Secondary metabolites from a red alga (Laurencia intricata): sesquiterpene alcohols. J. Org. Chem. 46:5033-5035.
 
White, R.H., and Hager, L.P. 1978. Intricenyne and related halogenated compounds from Laurencia intricata. Phytochem. 17:939-941.
 
White, R.H., and Hager, L.P. 1975. A biogenetic sequence of halogenated sesquiterpenes from Laurencia intricata. Phys. Chem. Sci. Res. Rep. 1:633.
 
McMillan, J.A., Paul, I.C., White, R.H., and Hager, L.P. 1974. Molecular structure of acetoxyintricatol: a new bromo compound from Laurencia intricata. Tetrahedron Lett. 15:2039-2042.
 
 
Citation: El-Sayed AM 2023. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
Ⓒ 2003-2023 The Pherobase - Extensive Database of Pheromones and Semiochemicals. Ashraf M. El-Sayed.
Page created on 15-October-2023