REPLY
The genus Penicillium contains over 480 species of fungi, and their initial identification is predominantly based on their macroscopic colony morphologies and light microscopic characteristics (1–3). Despite the introduction of modern molecular methods such as the internal transcribed spacer (ITS) sequence and the use of other gene sequences such as β-tubulin (BenA) and calmodulin (CaM), Penicillium species are not easily identified. Mycologists have known for years that there are many inaccurate labels in GenBank for the genus Penicillium and other fungal groups (4). In 2020, Houbraken et al. suggested that more diagnostic loci, such as Cct8, large subunit (LSU), RPB1, RPB2, small subunit (SSU), and Tsr1, should be included in the classification of Penicillium species (1).
In 2015 to 2017, using colony morphology, microscopic characteristics, and the ITS barcode, we identified two Penicillium species from stored fruits as Penicillium solitum NJ1 and RS1 (5) and another strain from a flooded home as Penicillium sclerotiorum 113 (6). At that time, we also analyzed the genome sequences of these three culturable strains (7–9). More recently, upon the publication of a letter to the editor on a series of recommendations to the microbiological community to prevent the taxonomic misidentification of genome-sequenced fungal strains suggested by Houbraken et al. (10), we reperformed BLASTn searches using the Penicillium strains NJ1, RS1, and 113. We used four barcodes (ITS, BenA, CaM, and RPB2) and limited the query to sequences from type material. With this framework, here we are renaming the three Penicillium strains according to the updated BLASTn results.
For Penicillium strain NJ1, BenA BLASTn results indicated that the top hits were Penicillium crustosum strains NRRL 66388, DI16-101, and CBS115503; among them, CBS115503 is the ex-type strain. The CaM BLASTn search for strain NJ1 indicated that the three top hits were P. crustosum strains KrP/6, DTO266-B3, and imi91917 (the ex-type strain). Their maximum/total scores, query coverage, E values, percent identity, and accession numbers are listed in Table 1. Therefore, the Penicillium NJ1 strain that we called P. solitum should be renamed P. crustosum NJ1.
TABLE 1.
Top hits of three misidentified Penicillium species using different barcodes
| Strain | Barcode | GenBank accession no. | BLASTn hit results |
||||||
|---|---|---|---|---|---|---|---|---|---|
| Strain description | Maximum score | Total score | Query coverage (%) | E value | Identity (%) | GenBank accession no. | |||
| NJ1 | ITS | KX243323 | P. crustosum FRR1669 a | 1,146 | 1,146 | 100 | 0.0 | 100 | NR077153 |
| P. crustosum CBS115503 a | 1,108 | 1,108 | 96 | 0.0 | 100 | MH862985 | |||
| NJ1 | BenA | KX243332 | P. crustosum NRRL 66388 | 854 | 854 | 100 | 0.0 | 100.00 | KY172962 |
| P. crustosum DI16-101 | 854 | 854 | 100 | 0.0 | 100.00 | LT559041 | |||
| P. crustosum CBS 115503 a | 837 | 837 | 98 | 0.0 | 99.77 | MN969379 | |||
| NJ1 | CaM | KX243340 | P. crustosum KrP/6 | 1,027 | 1,027 | 95 | 0.0 | 100.00 | MW115930 |
| P. crustosum DTO266-B3 | 1,005 | 1,005 | 93 | 0.0 | 100.00 | KU711890 | |||
| P. crustosum imi91917 a | 1,045 | 1,045 | 99 | 0.0 | 99.26 | DQ911132 | |||
| RS1 | ITS | KX243331 | P. polonicum CBS222.28 a | 1,134 | 1,134 | 95 | 0.0 | 99.16 | MH854992 |
| P. polonicum NRRL995 a | 1,076 | 1,076 | 90 | 0.0 | 99.12 | AF033475 | |||
| RS1 | BenA | KX243339 | P. polonicum CBS222.28 a | 668 | 668 | 91 | 0.0 | 94.39 | MN969392 |
| RS1 | CaM | KX243348 | P. polonicum F775 | 979 | 979 | 97 | 0.0 | 98.84 | MG714825 |
| P. polonicum CMV001E2 | 977 | 977 | 96 | 0.0 | 99.03 | MK451635 | |||
| P. polonicum CBS222.28 a | 946 | 946 | 94 | 0.0 | 98.80 | KU896848 | |||
| 113 | ITS | KX365203 | P. maximae NRRL2060 a | 1,065 | 1,065 | 88 | 0.0 | 99.28 | NR121343 |
| 113 | BenA | KX365204 | P. maximae SFC20151014-M14 | 795 | 795 | 85 | 0.0 | 98.59 | MK682867 |
| P. maximae NRRL2060 a | 795 | 795 | 82 | 0.0 | 99.52 | KC773795 | |||
| 113 | CaM | KX365205 | P. maximae SL-CL7 | 844 | 844 | 81 | 0.0 | 99.54 | MK134677 |
| P. maximae NRRL2060 a | 829 | 829 | 81 | 0.0 | 99.31 | KC773821 | |||
| 113 | RPB2 | KX365206 | P. maximae CBS134565 | 1,766 | 1,766 | 76 | 0.0 | 99.67 | MN969126 |
Penicillium type or ex-type strain (in bold).
Similarly, the Penicillium strain RS1 BenA BLASTn results indicated that the top hit was the Penicillium polonicum ex-type strain CBS222.28, and BLASTn results for the CaM sequence of this strain indicated that the three top hits were P. polonicum strains F775, CMV001E2, and CBS222.28 (the ex-type strain). Therefore, this strain should be renamed P. polonicum RS1. Finally, the BLASTn results for the BenA and CaM sequences of strain 113, which was isolated from a flooded home, indicated that the top hits were Penicillium maximae strains SFC20151014-M14, NRRL2060 (the ex-type strain), and SL-CL7. Therefore, strain 113 should be renamed P. maximae 113. Phylogenetic analyses using genome data from strains NJ1 and RS1 also support new names.
Molecular identification is the default approach for the identification of microfungi (11). With the development of next-generation sequencing, we think that genomics combined with transcriptomics and exometabolomics will provide more diagnostic characters for taxonomically difficult fungi such as Penicillium (11, 12).
Footnotes
This is a response to a letter by Houbraken et al. (https://doi.org/10.1128/MRA.01074-20).
Contributor Information
Guohua Yin, Email: guohuayin1997@gmail.com.
Antonis Rokas, Vanderbilt University.
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