Articles citing this paper
Breaking of Secondary Dormancy in Cocklebur Seeds by Cyanide and Azide in Combination With Ethylene and Oxygen, and Their Effects on Cytochrome and Alternative Respiratory Pathways
Y Esashi, H Komatsu, R Ushizawa and Y Sakai
9(1) pp.97 - 111
17 articles found in Crossref database.
The effect of cyanide, SHAM and azide on the germination and respiration of Citrullus lanatus seeds
Botha F.C.,
Small J.G.C., Grobbelaar N.
South African Journal of Botany. 1986 52(1). p.77
Reversal of ethylene action on cocklebur seed germination in relation to duration of pre‐treatment soaking and temperature
ESASHI YOHJI,
SAIJOH YUKIO,
ISHIDA SATOKO,
OOTA HIROSHI, ISIZAWA KIMIHARU
Plant, Cell & Environment. 1986 9(2). p.121
Transition from primary dormancy to secondary dormancy in cocklebur seeds
ESASHI YOHJI,
KURAISHI RITSU,
TANAKA NATSUO, SATOH SHIGERU
Plant, Cell & Environment. 1983 6(6). p.493
Changes in the synthesis of some proteins during breaking of secondarily induced thermodormancy by respiration inhibitors (cyanide, azide) and BAP in embryos ofAgrostemma githagoL. seeds
Bernhardt D., Gerth U.
Seed Science Research. 1994 4(4). p.415
A bimodal germination response to temperature in cocklebur seeds. II. ATP and adenylate pool
ESASHI YOHJI,
NAGAYAMA TAKAO,
SATOH MOTONOBU, SAIJOH KEIICHI
Plant, Cell & Environment. 1983 6(1). p.55
Respiratory metabolism and gene expression during seed germination
Botha F. C.,
Potgieter G. P., Botha A. -M.
Plant Growth Regulation. 1992 11(3). p.211
The presence of two types of β‐cyanoalanine synthase in germinating seeds and their responses to ethylene
Hasegawa Ryo,
Maruyama Akiko,
Nakaya Minoru,
Tsuda Sachiko, Esashi Yohji
Physiologia Plantarum. 1995 93(4). p.713
Possible mechanisms of afterripening in Xanthium seeds
Esashi Yohji,
Ogasawara Maria,
Górecki Ryszard, Leopold A. Carl
Physiologia Plantarum. 1993 87(3). p.359
Oxygen- and ethylene-induced germination in dormant peach seeds
Frenkel C.,
Belding R.D.,
Williams-Lokaj G.R., Reighard G.L.
European Journal of Horticultural Science. 2020 85(3). p.176
Effects of salicylhydroxamate on respiration, seed germination and seedling growth in Avena fatua
Upadhyaya Mahesh K.
Physiologia Plantarum. 1986 67(1). p.43
Progress in Botany / Fortschritte der Botanik (1984)
Ethylene in seed formation and germination
Matilla Angel J.
Seed Science Research. 2000 10(2). p.111
A bimodal germination response to temperature in cocklebur seeds. I. Cyanide‐sensitive and cyanide‐resistant respirations
ESASHI YOHJI,
ISHIHARA NOBUYORI,
SAIJOH KEIICHI, SATOH MOTONOBU
Plant, Cell & Environment. 1983 6(1). p.47
Murburn Concept: A Molecular Explanation for Hormetic and Idiosyncratic Dose Responses
Parashar Abhinav,
Gideon Daniel Andrew, Manoj Kelath Murali
Dose-Response. 2018 16(2). p.155932581877442
β‐Glucosidase activities and HCN liberation in unimbibed and imbibed seeds, and the induction of cocklebur seed germination by cyanogenic glycosides
Esashi Yohji,
Matsuyama Shinichi,
Ashino Hiroki,
Ogasawara Maria, Hasegawa Ryo
Physiologia Plantarum. 1991 83(1). p.34
Endogenous evolution of HCN during pre‐germination periods in many seed species
Esashi Yohji,
Isuzugawa Kanji,
Matsuyama Shinichi,
Ashino Hiroki, Hasegawa Ryo
Physiologia Plantarum. 1991 83(1). p.27
Presence of β‐cyanoalanine synthase in unimbibed dry seeds and its activation by ethylene during pre‐germination
Hasegawa Ryo,
Tada Tomoko,
Torii Yuichiro, Esashi Yohji
Physiologia Plantarum. 1994 91(2). p.141
