Literature summary for 3.4.21.10 extracted from

Raterman, D.; Springer, M.S.
The molecular evolution of acrosin in placental mammals (2008), Mol. Reprod. Dev., 75, 1196-1207.

Search for more literature for 3.4.21.10

Molecular Weight [Da]

Molecular Weight [Da]	Molecular Weight Maximum [Da]	Comment	Organism
25649	-	x * 25649, calculated from the deduced amino acid sequence	Cynocephalus volans
26300	-	x * 26300, calculated from the deduced amino acid sequence	Euphractus sexcinctus
26746	-	x * 26746, calculated from the deduced amino acid sequence	Sorex cinereus
26896	-	x * 26896, calculated from the deduced amino acid sequence	Manis sp. DMR-2008
28577	-	x * 28577, calculated from the deduced amino acid sequence	Tursiops truncatus
28582	-	x * 28582, calculated from the deduced amino acid sequence	Orycteropus afer
28794	-	x * 28794, calculated from the deduced amino acid sequence	Echinops telfairi
29689	-	x * 29689, calculated from the deduced amino acid sequence	Tragelaphus angasii
30066	-	x * 30066, calculated from the deduced amino acid sequence	Bradypus tridactylus
30138	-	x * 30138, calculated from the deduced amino acid sequence	Tadarida brasiliensis
30202	-	x * 30202, calculated from the deduced amino acid sequence	Talpa europaea
30233	-	x * 30233, calculated from the deduced amino acid sequence	Procavia capensis
30276	-	x * 30276, calculated from the deduced amino acid sequence	Lama glama
30310	-	x * 30310, calculated from the deduced amino acid sequence	Ochotona princeps
30357	-	x * 30357, calculated from the deduced amino acid sequence	Loxodonta africana
30361	-	x * 30361, calculated from the deduced amino acid sequence	Erethizon dorsatum
30413	-	x * 30413, calculated from the deduced amino acid sequence	Hystrix brachyura
30452	-	x * 30452, calculated from the deduced amino acid sequence	Tupaia glis
30455	-	x * 30455, calculated from the deduced amino acid sequence	Rattus fuscipes
30469	-	x * 30469, calculated from the deduced amino acid sequence	Amblysomus hottentotus
30515	-	x * 30515, calculated from the deduced amino acid sequence	Dugong dugon
30534	-	x * 30534, calculated from the deduced amino acid sequence	Sylvilagus floridanus
30556	-	x * 30556, calculated from the deduced amino acid sequence	Trichechus manatus
30583	-	x * 30583, calculated from the deduced amino acid sequence	Felis catus
30583	-	x * 30583, calculated from the deduced amino acid sequence	Puma concolor
30604	-	x * 30604, calculated from the deduced amino acid sequence	Otospermophilus beecheyi
30616	-	x * 30616, calculated from the deduced amino acid sequence	Elephantulus edwardii
30628	-	x * 30628, calculated from the deduced amino acid sequence	Macroscelides proboscideus
30679	-	x * 30679, calculated from the deduced amino acid sequence	Equus caballus
30707	-	x * 30707, calculated from the deduced amino acid sequence	Diceros bicornis
30788	-	x * 30788, calculated from the deduced amino acid sequence	Tapirus pinchaque
30809	-	x * 30809, calculated from the deduced amino acid sequence	Galegeeska rufescens
36119	-	x * 36119, calculated from the deduced amino acid sequence	Ovis aries
41722	-	x * 41722, calculated from the deduced amino acid sequence	Bos taurus
43016	-	x * 43016, calculated from the deduced amino acid sequence	Mus musculus
45773	-	x * 45773, calculated from the deduced amino acid sequence	Cavia porcellus
45847	-	x * 45847, calculated from the deduced amino acid sequence	Homo sapiens
46422	-	x * 46422, calculated from the deduced amino acid sequence	Oryctolagus cuniculus
48623	-	x * 48623, calculated from the deduced amino acid sequence	Rattus norvegicus

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.
additional information	Canis lupus familiaris	lysis of Arg/Lys-X bonds	?	-	?
additional information	Macaca mulatta	lysis of Arg/Lys-X bonds	?	-	?
additional information	Rattus norvegicus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Pan troglodytes	lysis of Arg/Lys-X bonds	?	-	?
additional information	Ovis aries	lysis of Arg/Lys-X bonds	?	-	?
additional information	Echinops telfairi	lysis of Arg/Lys-X bonds	?	-	?
additional information	Amblysomus hottentotus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Procavia capensis	lysis of Arg/Lys-X bonds	?	-	?
additional information	Elephantulus edwardii	lysis of Arg/Lys-X bonds	?	-	?
additional information	Galegeeska rufescens	lysis of Arg/Lys-X bonds	?	-	?
additional information	Macroscelides proboscideus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Loxodonta africana	lysis of Arg/Lys-X bonds	?	-	?
additional information	Dugong dugon	lysis of Arg/Lys-X bonds	?	-	?
additional information	Orycteropus afer	lysis of Arg/Lys-X bonds	?	-	?
additional information	Trichechus manatus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Bradypus tridactylus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Euphractus sexcinctus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Mus musculus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Felis catus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Puma concolor	lysis of Arg/Lys-X bonds	?	-	?
additional information	Tursiops truncatus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Sus scrofa	lysis of Arg/Lys-X bonds	?	-	?
additional information	Lama glama	lysis of Arg/Lys-X bonds	?	-	?
additional information	Tragelaphus angasii	lysis of Arg/Lys-X bonds	?	-	?
additional information	Tadarida brasiliensis	lysis of Arg/Lys-X bonds	?	-	?
additional information	Sorex cinereus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Talpa europaea	lysis of Arg/Lys-X bonds	?	-	?
additional information	Diceros bicornis	lysis of Arg/Lys-X bonds	?	-	?
additional information	Equus caballus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Tapirus pinchaque	lysis of Arg/Lys-X bonds	?	-	?
additional information	Manis sp. DMR-2008	lysis of Arg/Lys-X bonds	?	-	?
additional information	Cynocephalus volans	lysis of Arg/Lys-X bonds	?	-	?
additional information	Bos taurus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Tupaia glis	lysis of Arg/Lys-X bonds	?	-	?
additional information	Ochotona princeps	lysis of Arg/Lys-X bonds	?	-	?
additional information	Sylvilagus floridanus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Otospermophilus beecheyi	lysis of Arg/Lys-X bonds	?	-	?
additional information	Hystrix brachyura	lysis of Arg/Lys-X bonds	?	-	?
additional information	Erethizon dorsatum	lysis of Arg/Lys-X bonds	?	-	?
additional information	Rattus fuscipes	lysis of Arg/Lys-X bonds	?	-	?
additional information	Cavia porcellus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Homo sapiens	lysis of Arg/Lys-X bonds	?	-	?
additional information	Oryctolagus cuniculus	lysis of Arg/Lys-X bonds	?	-	?
additional information	Canis lupus familiaris	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Macaca mulatta	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Rattus norvegicus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Pan troglodytes	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Ovis aries	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Echinops telfairi	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Amblysomus hottentotus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Procavia capensis	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Elephantulus edwardii	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Galegeeska rufescens	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Macroscelides proboscideus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Loxodonta africana	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Dugong dugon	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Orycteropus afer	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Trichechus manatus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Bradypus tridactylus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Euphractus sexcinctus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Mus musculus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Felis catus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Puma concolor	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Tursiops truncatus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Sus scrofa	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Lama glama	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Tragelaphus angasii	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Tadarida brasiliensis	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Sorex cinereus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Talpa europaea	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Diceros bicornis	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Equus caballus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Tapirus pinchaque	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Manis sp. DMR-2008	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Cynocephalus volans	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Bos taurus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Tupaia glis	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Ochotona princeps	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Sylvilagus floridanus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Otospermophilus beecheyi	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Hystrix brachyura	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Erethizon dorsatum	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Rattus fuscipes	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Cavia porcellus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Homo sapiens	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
additional information	Oryctolagus cuniculus	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	?	-	?
proacrosin + H2O	Canis lupus familiaris	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Macaca mulatta	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Rattus norvegicus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Pan troglodytes	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Ovis aries	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Echinops telfairi	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Amblysomus hottentotus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Procavia capensis	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Elephantulus edwardii	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Galegeeska rufescens	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Macroscelides proboscideus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Loxodonta africana	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Dugong dugon	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Orycteropus afer	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Trichechus manatus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Bradypus tridactylus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Euphractus sexcinctus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Mus musculus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Felis catus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Puma concolor	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Tursiops truncatus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Sus scrofa	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Lama glama	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Tragelaphus angasii	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Tadarida brasiliensis	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Sorex cinereus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Talpa europaea	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Diceros bicornis	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Equus caballus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Tapirus pinchaque	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Manis sp. DMR-2008	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Cynocephalus volans	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Bos taurus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Tupaia glis	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Ochotona princeps	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Sylvilagus floridanus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Otospermophilus beecheyi	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Hystrix brachyura	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Erethizon dorsatum	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Rattus fuscipes	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Cavia porcellus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Homo sapiens	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?
proacrosin + H2O	Oryctolagus cuniculus	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	acrosin + peptide	-	?

Organism

Organism	UniProt	Comment	Textmining
Amblysomus hottentotus	B0LM06	Hottentot golden mole	-
Bos taurus	P79343	bovine proacrosine	-
Bradypus tridactylus	B0LM16	fragment; pale-throated three-toed sloth	-
Canis lupus familiaris	-	dog	-
Cavia porcellus	Q60491	preproacrosin, precursor, fragment; guinea pig	-
Cynocephalus volans	B0LM30	fragment; Philippine flying lemur	-
Diceros bicornis	B0LM26	black rhinoceros	-
Dugong dugon	B0LM13	fragment	-
Echinops telfairi	B0LM07	lesser hedgehog tenrec	-
Elephantulus edwardii	B0LM09	fragement; Cape long-eared elephant shrew	-
Equus caballus	B0LM27	fragment; horse	-
Erethizon dorsatum	B0LM36	fragment; North American porcupine	-
Euphractus sexcinctus	B0LM17	fragment; six-banded armadillo	-
Felis catus	B0LM18	fragment; cat	-
Galegeeska rufescens	B0LM10	fragment; East African long-eared elephant shrew	-
Homo sapiens	P10323	precursor	-
Hystrix brachyura	B0LM35	fragment; Malayan porcupine	-
Lama glama	B0LM21	fragment	-
Loxodonta africana	B0LM12	fragment; African elephant	-
Macaca mulatta	-	-	-
Macroscelides proboscideus	B0LM11	fragment; short-eared elephant shrew	-
Manis sp. DMR-2008	B0LM29	fragment	-
Mus musculus	Q3ZB05	-	-
Ochotona princeps	B0LM32	fragment; Southern American pika	-
Orycteropus afer	B0LM15	fragment; Aardvark	-
Oryctolagus cuniculus	P48038	precursor	-
Otospermophilus beecheyi	B0LM38	fragment; Beechey ground squirrel	-
Ovis aries	Q9GL10	precursor	-
Pan troglodytes	B0LM34	fragment; chimpanzee	-
Procavia capensis	B0LM08	fragment; rock dassie	-
Puma concolor	B0LM19	fragment; mountain lion	-
Rattus fuscipes	B0LM37	fragment; bush rat	-
Rattus norvegicus	P29293	precursor	-
Sorex cinereus	B0LM24	fragment; masked shrew	-
Sus scrofa	P08001	proacrosin nucleotides 22-849	-
Sylvilagus floridanus	B0LM33	fragment; cottontail rabbit	-
Tadarida brasiliensis	B0LM23	fragment; Brazilian free-tailed bat	-
Talpa europaea	B0LM25	fragment; European mole	-
Tapirus pinchaque	B0LM28	fragment; mountain tapir	-
Tragelaphus angasii	B0LM22	fragment; nyala	-
Trichechus manatus	B0LM14	fragment; Caribbean manatee, West Indian manatee	-
Tupaia glis	B0LM31	fragment; tree shrew	-
Tursiops truncatus	B0LM20	fragment; Atlantic bottle-nosed dolphin	-

Source Tissue

Source Tissue	Comment	Organism	Textmining
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Canis lupus familiaris	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Macaca mulatta	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Rattus norvegicus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Pan troglodytes	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Ovis aries	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Echinops telfairi	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Amblysomus hottentotus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Procavia capensis	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Elephantulus edwardii	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Galegeeska rufescens	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Macroscelides proboscideus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Loxodonta africana	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Dugong dugon	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Orycteropus afer	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Trichechus manatus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Bradypus tridactylus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Euphractus sexcinctus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Mus musculus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Felis catus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Puma concolor	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Tursiops truncatus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Sus scrofa	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Lama glama	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Tragelaphus angasii	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Tadarida brasiliensis	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Sorex cinereus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Talpa europaea	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Diceros bicornis	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Equus caballus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Tapirus pinchaque	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Manis sp. DMR-2008	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Cynocephalus volans	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Bos taurus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Tupaia glis	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Ochotona princeps	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Sylvilagus floridanus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Otospermophilus beecheyi	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Hystrix brachyura	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Erethizon dorsatum	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Rattus fuscipes	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Cavia porcellus	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Homo sapiens	-
spermatozoon	initially present in the sperm acrosomal vesicle of mammalian spermatozoa as the zymogen form, proacrosin, converted to the active form during the acrosome reaction, after which most acrosin molecules are released from the acrosomal vesicle, with a portion remaining associated with the sperm	Oryctolagus cuniculus	-

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.
additional information	lysis of Arg/Lys-X bonds	Canis lupus familiaris	?	-	?
additional information	lysis of Arg/Lys-X bonds	Macaca mulatta	?	-	?
additional information	lysis of Arg/Lys-X bonds	Rattus norvegicus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Pan troglodytes	?	-	?
additional information	lysis of Arg/Lys-X bonds	Ovis aries	?	-	?
additional information	lysis of Arg/Lys-X bonds	Echinops telfairi	?	-	?
additional information	lysis of Arg/Lys-X bonds	Amblysomus hottentotus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Procavia capensis	?	-	?
additional information	lysis of Arg/Lys-X bonds	Elephantulus edwardii	?	-	?
additional information	lysis of Arg/Lys-X bonds	Galegeeska rufescens	?	-	?
additional information	lysis of Arg/Lys-X bonds	Macroscelides proboscideus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Loxodonta africana	?	-	?
additional information	lysis of Arg/Lys-X bonds	Dugong dugon	?	-	?
additional information	lysis of Arg/Lys-X bonds	Orycteropus afer	?	-	?
additional information	lysis of Arg/Lys-X bonds	Trichechus manatus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Bradypus tridactylus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Euphractus sexcinctus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Mus musculus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Felis catus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Puma concolor	?	-	?
additional information	lysis of Arg/Lys-X bonds	Tursiops truncatus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Sus scrofa	?	-	?
additional information	lysis of Arg/Lys-X bonds	Lama glama	?	-	?
additional information	lysis of Arg/Lys-X bonds	Tragelaphus angasii	?	-	?
additional information	lysis of Arg/Lys-X bonds	Tadarida brasiliensis	?	-	?
additional information	lysis of Arg/Lys-X bonds	Sorex cinereus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Talpa europaea	?	-	?
additional information	lysis of Arg/Lys-X bonds	Diceros bicornis	?	-	?
additional information	lysis of Arg/Lys-X bonds	Equus caballus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Tapirus pinchaque	?	-	?
additional information	lysis of Arg/Lys-X bonds	Manis sp. DMR-2008	?	-	?
additional information	lysis of Arg/Lys-X bonds	Cynocephalus volans	?	-	?
additional information	lysis of Arg/Lys-X bonds	Bos taurus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Tupaia glis	?	-	?
additional information	lysis of Arg/Lys-X bonds	Ochotona princeps	?	-	?
additional information	lysis of Arg/Lys-X bonds	Sylvilagus floridanus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Otospermophilus beecheyi	?	-	?
additional information	lysis of Arg/Lys-X bonds	Hystrix brachyura	?	-	?
additional information	lysis of Arg/Lys-X bonds	Erethizon dorsatum	?	-	?
additional information	lysis of Arg/Lys-X bonds	Rattus fuscipes	?	-	?
additional information	lysis of Arg/Lys-X bonds	Cavia porcellus	?	-	?
additional information	lysis of Arg/Lys-X bonds	Homo sapiens	?	-	?
additional information	lysis of Arg/Lys-X bonds	Oryctolagus cuniculus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Canis lupus familiaris	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Macaca mulatta	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Rattus norvegicus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Pan troglodytes	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Ovis aries	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Echinops telfairi	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Amblysomus hottentotus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Procavia capensis	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Elephantulus edwardii	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Galegeeska rufescens	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Macroscelides proboscideus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Loxodonta africana	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Dugong dugon	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Orycteropus afer	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Trichechus manatus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Bradypus tridactylus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Euphractus sexcinctus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Mus musculus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Felis catus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Puma concolor	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Tursiops truncatus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Sus scrofa	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Lama glama	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Tragelaphus angasii	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Tadarida brasiliensis	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Sorex cinereus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Talpa europaea	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Diceros bicornis	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Equus caballus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Tapirus pinchaque	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Manis sp. DMR-2008	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Cynocephalus volans	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Bos taurus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Tupaia glis	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Ochotona princeps	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Sylvilagus floridanus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Otospermophilus beecheyi	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Hystrix brachyura	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Erethizon dorsatum	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Rattus fuscipes	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Cavia porcellus	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Homo sapiens	?	-	?
additional information	thought to fulfill several different roles in fertilization including that of a serine protease and in secondary zona pellucida binding	Oryctolagus cuniculus	?	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Canis lupus familiaris	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Macaca mulatta	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Rattus norvegicus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Pan troglodytes	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Ovis aries	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Echinops telfairi	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Amblysomus hottentotus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Procavia capensis	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Elephantulus edwardii	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Galegeeska rufescens	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Macroscelides proboscideus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Loxodonta africana	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Dugong dugon	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Orycteropus afer	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Trichechus manatus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Bradypus tridactylus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Euphractus sexcinctus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Mus musculus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Felis catus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Puma concolor	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Tursiops truncatus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Sus scrofa	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Lama glama	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Tragelaphus angasii	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Tadarida brasiliensis	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Sorex cinereus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Talpa europaea	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Diceros bicornis	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Equus caballus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Tapirus pinchaque	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Manis sp. DMR-2008	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Cynocephalus volans	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Bos taurus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Tupaia glis	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Ochotona princeps	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Sylvilagus floridanus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Otospermophilus beecheyi	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Hystrix brachyura	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Erethizon dorsatum	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Rattus fuscipes	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Cavia porcellus	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Homo sapiens	acrosin + peptide	-	?
proacrosin + H2O	acrosin autoactivates through an endoproteolytic cleavage at the N-terminus with subsequent conversion to the mature enzyme through C-terminus cleavages	Oryctolagus cuniculus	acrosin + peptide	-	?

Subunits

Subunits	Comment	Organism
?	x * 25649, calculated from the deduced amino acid sequence	Cynocephalus volans
?	x * 26300, calculated from the deduced amino acid sequence	Euphractus sexcinctus
?	x * 26746, calculated from the deduced amino acid sequence	Sorex cinereus
?	x * 26896, calculated from the deduced amino acid sequence	Manis sp. DMR-2008
?	x * 28577, calculated from the deduced amino acid sequence	Tursiops truncatus
?	x * 28582, calculated from the deduced amino acid sequence	Orycteropus afer
?	x * 28794, calculated from the deduced amino acid sequence	Echinops telfairi
?	x * 29689, calculated from the deduced amino acid sequence	Tragelaphus angasii
?	x * 30066, calculated from the deduced amino acid sequence	Bradypus tridactylus
?	x * 30138, calculated from the deduced amino acid sequence	Tadarida brasiliensis
?	x * 30202, calculated from the deduced amino acid sequence	Talpa europaea
?	x * 30233, calculated from the deduced amino acid sequence	Procavia capensis
?	x * 30276, calculated from the deduced amino acid sequence	Lama glama
?	x * 30310, calculated from the deduced amino acid sequence	Ochotona princeps
?	x * 30357, calculated from the deduced amino acid sequence	Loxodonta africana
?	x * 30361, calculated from the deduced amino acid sequence	Erethizon dorsatum
?	x * 30413, calculated from the deduced amino acid sequence	Hystrix brachyura
?	x * 30452, calculated from the deduced amino acid sequence	Tupaia glis
?	x * 30455, calculated from the deduced amino acid sequence	Rattus fuscipes
?	x * 30469, calculated from the deduced amino acid sequence	Amblysomus hottentotus
?	x * 30515, calculated from the deduced amino acid sequence	Dugong dugon
?	x * 30534, calculated from the deduced amino acid sequence	Sylvilagus floridanus
?	x * 30556, calculated from the deduced amino acid sequence	Trichechus manatus
?	x * 30583, calculated from the deduced amino acid sequence	Felis catus
?	x * 30583, calculated from the deduced amino acid sequence	Puma concolor
?	x * 30604, calculated from the deduced amino acid sequence	Otospermophilus beecheyi
?	x * 30616, calculated from the deduced amino acid sequence	Elephantulus edwardii
?	x * 30628, calculated from the deduced amino acid sequence	Macroscelides proboscideus
?	x * 30679, calculated from the deduced amino acid sequence	Equus caballus
?	x * 30707, calculated from the deduced amino acid sequence	Diceros bicornis
?	x * 30788, calculated from the deduced amino acid sequence	Tapirus pinchaque
?	x * 30809, calculated from the deduced amino acid sequence	Galegeeska rufescens
?	x * 36119, calculated from the deduced amino acid sequence	Ovis aries
?	x * 41722, calculated from the deduced amino acid sequence	Bos taurus
?	x * 43016, calculated from the deduced amino acid sequence	Mus musculus
?	x * 45773, calculated from the deduced amino acid sequence	Cavia porcellus
?	x * 45847, calculated from the deduced amino acid sequence	Homo sapiens
?	x * 46422, calculated from the deduced amino acid sequence	Oryctolagus cuniculus
?	x * 48623, calculated from the deduced amino acid sequence	Rattus norvegicus

Synonyms

Synonyms	Comment	Organism
acrosin	trypsin-like serine protease of the S1 family	Canis lupus familiaris
acrosin	trypsin-like serine protease of the S1 family	Macaca mulatta
acrosin	trypsin-like serine protease of the S1 family	Rattus norvegicus
acrosin	trypsin-like serine protease of the S1 family	Pan troglodytes
acrosin	trypsin-like serine protease of the S1 family	Ovis aries
acrosin	trypsin-like serine protease of the S1 family	Echinops telfairi
acrosin	trypsin-like serine protease of the S1 family	Amblysomus hottentotus
acrosin	trypsin-like serine protease of the S1 family	Procavia capensis
acrosin	trypsin-like serine protease of the S1 family	Elephantulus edwardii
acrosin	trypsin-like serine protease of the S1 family	Galegeeska rufescens
acrosin	trypsin-like serine protease of the S1 family	Macroscelides proboscideus
acrosin	trypsin-like serine protease of the S1 family	Loxodonta africana
acrosin	trypsin-like serine protease of the S1 family	Dugong dugon
acrosin	trypsin-like serine protease of the S1 family	Orycteropus afer
acrosin	trypsin-like serine protease of the S1 family	Trichechus manatus
acrosin	trypsin-like serine protease of the S1 family	Bradypus tridactylus
acrosin	trypsin-like serine protease of the S1 family	Euphractus sexcinctus
acrosin	trypsin-like serine protease of the S1 family	Mus musculus
acrosin	trypsin-like serine protease of the S1 family	Felis catus
acrosin	trypsin-like serine protease of the S1 family	Puma concolor
acrosin	trypsin-like serine protease of the S1 family	Tursiops truncatus
acrosin	trypsin-like serine protease of the S1 family	Sus scrofa
acrosin	trypsin-like serine protease of the S1 family	Lama glama
acrosin	trypsin-like serine protease of the S1 family	Tragelaphus angasii
acrosin	trypsin-like serine protease of the S1 family	Tadarida brasiliensis
acrosin	trypsin-like serine protease of the S1 family	Sorex cinereus
acrosin	trypsin-like serine protease of the S1 family	Talpa europaea
acrosin	trypsin-like serine protease of the S1 family	Diceros bicornis
acrosin	trypsin-like serine protease of the S1 family	Equus caballus
acrosin	trypsin-like serine protease of the S1 family	Tapirus pinchaque
acrosin	trypsin-like serine protease of the S1 family	Manis sp. DMR-2008
acrosin	trypsin-like serine protease of the S1 family	Cynocephalus volans
acrosin	trypsin-like serine protease of the S1 family	Bos taurus
acrosin	trypsin-like serine protease of the S1 family	Tupaia glis
acrosin	trypsin-like serine protease of the S1 family	Ochotona princeps
acrosin	trypsin-like serine protease of the S1 family	Sylvilagus floridanus
acrosin	trypsin-like serine protease of the S1 family	Otospermophilus beecheyi
acrosin	trypsin-like serine protease of the S1 family	Hystrix brachyura
acrosin	trypsin-like serine protease of the S1 family	Erethizon dorsatum
acrosin	trypsin-like serine protease of the S1 family	Rattus fuscipes
acrosin	trypsin-like serine protease of the S1 family	Cavia porcellus
acrosin	trypsin-like serine protease of the S1 family	Homo sapiens
acrosin	trypsin-like serine protease of the S1 family	Oryctolagus cuniculus