Genomic and transcriptomic analysis of the endophytic fungus Pestalotiopsis fici reveals its lifestyle and high potential for synthesis of natural products

Table 2 Numbers of core genes involved in secondary metabolism in Pestalotiopsis fici and selected fungi

	PKS	NRPS	DMAT	Hybrid	PKS-like	NRPS-like	TS	TC	FAS	Total
P. fici	27	12	5	5	4	15	15	7	7	97
G. graminicola	37	5	6	4	1	7	15	4	9	88
M. oryzae	27	16	8	2	0	16	16	7	3	95
F. oxysporum	9	7	2	2	2	12	13	7	13	67
F. verticillioides	11	7	1	2	1	11	16	5	13	67
F. graminearum	14	10	0	1	1	11	17	4	8	66
N. haematococca	12	8	1	1	1	4	8	5	7	47
S. sclerotiorum	15	5	1	0	2	5	7	4	3	42
V. albo-atrum	8	6	0	1	2	7	7	5	8	44
V. dahliae	7	2	0	1	1	7	12	9	16	55
A. sarcoides	2	4	1	0	1	3	9	4	7	31
E. festucae	11	18	4	1	3	9	9	4	2	61
G. lozoyensis	24	6	2	5	1	13	14	5	6	76
T. reesei	11	8	0	2	1	5	11	5	4	47
N. crassa	6s	3	1	0	2	3	7	5	4	31
S. cerevisiae	0	0	0	0	1	0	4	3	1	9
T. melanosporum	2	1	0	0	1	2	5	4	5	20
L. bicolor	2	0	1	0	1	2	15	6	4	31
Pi. indica	1	0	1	0	0	1	7	4	4	18

PKS, polyketide synthase; NRPS, non-ribosomal peptide synthase; DMAT, dimethylallyl tryptophan synthase; Hybrid, polyketide synthase-non-ribosomal peptide synthase hybrid; TC, terpenoid cyclase; TS, terpenoid synthase and FAS, fatty-acid synthase.

ISSN: 1471-2164