Biology Reference
In-Depth Information
Heintzelman, G. R., Fang, W. K., Keen, S. P., Wallace, G. A., & Weinreb, S. M. (2002). Stere-
oselective total syntheses and reassignment of stereochemistry of the freshwater cyano-
bacterial hepatotoxins cylindrospermopsin and 7-epicylindrospermopsin.
Journal of the
American Chemical Society
,
124
, 3939-3945.
Hess, W. R. (2011). Cyanobacterial genomics for ecology and biotechnology.
Current Opinion
in Microbiology
,
14
, 608-614.
Hicks, L. M., Moffitt, M. C., Beer, L. L., Moore, B. S., & Kelleher, N. L. (2006). Structural
characterization of in vitro and in vivo intermediates on the loading module of micro-
cystin synthetase.
Acs Chemical Biology
,
1
, 93-102.
Hoffmann, D., Hevel, J. M., Moore, R. E., & Moore, B. S. (2003). Sequence analysis and
biochemical characterization of the nostopeptolide A biosynthetic gene cluster from
Nostoc
sp. GSV224.
Gene
,
311
, 171-180.
Ishida, K., Christiansen, G., Yoshida, W. Y., Kurmayer, R., Welker, M., Valls, N., et al. (2007).
Biosynthesis and structure of aeruginoside 126A and 126B, cyanobacterial peptide gly-
cosides bearing a 2-carboxy-6-hydroxyoctahydroindole moiety.
Chemistry & Biology
,
14
, 565-576.
Ishida, K., Welker, M., Christiansen, G., Cadel-Six, S., Bouchier, C., Dittmann, E., et al.
(2009). Plasticity and evolution of aeruginosin biosynthesis in cyanobacteria.
Applied and
Environmental Microbiology
,
75
, 2017-2026.
Jiang, Y. G., Xiao, P., Yu, G. L., Sano, T., Pan, Q. Q., & Li, R. H. (2012). Molecular basis
and phylogenetic implications of deoxycylindrospermopsin biosynthesis in the
cyanobacterium
Raphidiopsis curvata
.
Applied and Environmental Microbiology
,
78
,
2256-2263.
Jones, A. C., Gu, L. C., Sorrels, C. M., Sherman, D. H., & Gerwick, W. H. (2009). New tricks
from ancient algae: natural products biosynthesis in marine cyanobacteria.
Current Opin-
ion in Chemical Biology
,
13
, 216-223.
Jones, A. C., Monroe, E. A., Eisman, E. B., Gerwick, L., Sherman, D. H., & Gerwick,
W. H. (2010). The unique mechanistic transformations involved in the biosynthesis
of modular natural products from marine cyanobacteria.
Natural Product Reports
,
27
,
1048-1065.
Kaasalainen, U., Fewer, D. P., Jokela, J., Wahlsten, M., Sivonen, K., & Rikkinen, J. (2012).
Cyanobacteria produce a high variety of hepatotoxic peptides in lichen sym-
biosis.
Proceedings of the National Academy of Sciences of the United States of America
,
109
, 5886-5891.
Kaebernick, M., Dittmann, E., Borner, T., & Neilan, B. A. (2002). Multiple alternate tran-
scripts direct the biosynthesis of microcystin, a cyanobacterial nonribosomal peptide.
Applied and Environmental Microbiology
,
68
, 449-455.
Kaneko, T., Nakajima, N., Okamoto, S., Suzuki, I., Tanabe, Y., Tamaoki, M., et al. (2007).
Complete genomic structure of the bloom-forming toxic cyanobacterium
Microcystis
aeruginosa
NIES-843.
DNA Research
,
14
, 247-256.
Kehr, J. C., Gatte Picchi, D., & Dittmann, E. (2011). Natural product biosyntheses in cya-
nobacteria: a treasure trove of unique enzymes.
Beilstein Journal of Organic Chemistry
,
7
, 1622-1635.
Kellmann, R., Mihali, T. K., Jeon, Y. J., Pickford, R., Pomati, F., & Neilan, B. A. (2008). Bio-
synthetic intermediate analysis and functional homology reveal a saxitoxin gene cluster
in cyanobacteria.
Applied and Environmental Microbiology
,
74
, 4044-4053.
Krebs, C., Bollinger, J. M., & Booker, S. J. (2011). Cyanobacterial alkane biosynthesis further
expands the catalytic repertoire of the ferritin-like 'di-iron-carboxylate' proteins.
Current
Opinion in Chemical Biology
,
15
, 291-303.
Li, B., Sher, D., Kelly, L., Shi, Y. X., Huang, K., Knerr, P. J., et al. (2010). Catalytic promiscu-
ity in the biosynthesis of cyclic peptide secondary metabolites in planktonic marine
cyanobacteria.
Proceedings of the National Academy of Sciences of the United States of America
,
107
, 10430-10435.
