. 2018 Jul 10;6(3):66. doi: 10.3390/microorganisms6030066

Table 2.

Characterized exoglucanases (1,4-β-cellobiosidase) acting on non-reducing ends from thermophiles (EC 3.2.1.91). NM: not measured.

Enzyme	GH Family Domains	Optimum Temperature	Optimum pH	Temperature Stability ¹	Source	Reference
CBHII	6	60 °C	4.0	30%; 100 °C; 10 min	Bacteria (Streptomyces sp. M23)	[106]
Cel6B	6	NM	7.0–8.0	100%; 55 °C; 16 h	Bacteria (Thermobifida fusca)	[107]
CBHII	6	57 °C	5.5	NM	Fungi (Aspergillus nidulans)	[78]
Cel6A	6	50 °C	4.0	50%; 70 °C; 30 min	Fungi (Chaetomium thermophilum)	[108]
CBHII (Cel6A)	6	60 °C	5.0–5.5	>90%; 50 °C; 5 h	Fungi (Chrysosporium lucknowense)	[109]
HiCel6A	6	60–65 °C	NM	50%; 75 °C; <25 min	Fungi (Humicola insolens)	[26]
Ex-4	6	50 °C	5.0	80%; 60 °C; 60 min	Fungi (Irpex Lacteus)	[110]
PoCel6A	6	50 °C	5.0	90%; 50 °C; 2 h 80%; 60 °C; 4 h	Fungi (Penicillium oxalicum)	[111]
PaCel6A	6	55 °C	5.0–9.0	100%; 35 °C; 24 h >20%; 45 °C; 24 h	Fungi (Podospora anserina)	[19]
CBHII	6	70 °C	5.0	NM	Fungi (Trichoderma viride)	[112]
G10-6	6	55 °C	9.5	NM	Uncultured organism (Eathworm casts metagenome)	[70]
Cbh9A	9	60 °C	6.5	NM	Bacteria (Ruminiclostridium thermocellum)	[113]
Cel9K	9	65 °C	6.0	97%; 60 °C; 200 h	Bacteria (Ruminiclostridium thermocellum)	[114]

¹ Temperature stability is given as a percentage of activity (residual activity) after treatment at the specified temperature and time compared to the untreated enzyme.