Changes in the flagellum morphology of intact and frozen/thawed Siberian sturgeon Acipenser baerii (Brandt) sperm during motility
Identifieur interne : 000367 ( Istex/Corpus ); précédent : 000366; suivant : 000368Changes in the flagellum morphology of intact and frozen/thawed Siberian sturgeon Acipenser baerii (Brandt) sperm during motility
Auteurs : R. Billard ; J. Cosson ; O. LinhartSource :
- Aquaculture Research [ 1355-557X ] ; 2000-03.
Abstract
Morphological investigations on the changes in flagellar beating was carried out on native (taken from the milt) and thawed sperm of the Siberian sturgeon Acipenser baerii (Brandt). Immediately after activation, the pattern of flagellar wave formation and distribution was the same in native and thawed sperm but, after 27–42 s, depending on the samples, the thawed flagella showed asymmetric and poorly developed waves. The swimming trajectories recorded during 1‐s exposure were much shorter in thawed than in native sperm after 26–28 s motility. In native sperm, the flagella remained in the same axis as the head during the entire motility course, while the head of thawed sperm showed a right angle after 47 s. It is concluded that the freezing/thawing procedure induces some alteration in the dynamics of flagellar beating in many sperm, but these sperm still show progressive displacement. Therefore, the change in morphology of the flagellum during motion is a parameter that should be taken into account in the evaluation of the impact of various treatments on sperm motility.
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DOI: 10.1046/j.1365-2109.2000.00423.x
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Immediately after activation, the pattern of flagellar wave formation and distribution was the same in native and thawed sperm but, after 27–42 s, depending on the samples, the thawed flagella showed asymmetric and poorly developed waves. The swimming trajectories recorded during 1‐s exposure were much shorter in thawed than in native sperm after 26–28 s motility. In native sperm, the flagella remained in the same axis as the head during the entire motility course, while the head of thawed sperm showed a right angle after 47 s. It is concluded that the freezing/thawing procedure induces some alteration in the dynamics of flagellar beating in many sperm, but these sperm still show progressive displacement. Therefore, the change in morphology of the flagellum during motion is a parameter that should be taken into account in the evaluation of the impact of various treatments on sperm motility.</div></front></TEI><istex><corpusName>wiley</corpusName><author><json:item><name>R. 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Immediately after activation, the pattern of flagellar wave formation and distribution was the same in native and thawed sperm but, after 27–42 s, depending on the samples, the thawed flagella showed asymmetric and poorly developed waves. The swimming trajectories recorded during 1‐s exposure were much shorter in thawed than in native sperm after 26–28 s motility. In native sperm, the flagella remained in the same axis as the head during the entire motility course, while the head of thawed sperm showed a right angle after 47 s. It is concluded that the freezing/thawing procedure induces some alteration in the dynamics of flagellar beating in many sperm, but these sperm still show progressive displacement. 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