Na+、葡萄糖、果糖对凹目白鲑精子活力的影响

研究了凹目白鲑（Coregonus autumnalis）精子在302．6～488．9kPa时的NaCl溶液、D-葡萄糖溶液及D-果糖溶液中的活动情况。结果显示,在NaCl溶液中凹目白鲑精子在395．7kPa具最佳活力,其快速运动时间（fast movement time,FT）与寿命时间（1ife time,LT）的最大值分别达43．57s和90．31s;与相同渗透压下NaCl溶液相比,凹目白鲑精子在葡萄糖和果糖溶液中的FT与LT均有不同程度的增加;在葡萄糖溶液中FT与LT的最大值分别为57．67s和97．29s,在果糖溶液中则为70．44s和105．29s。说明凹目白鲑精子活力不但与溶液渗透压有关,而且与溶液溶质有关。     

Na+、K+、Mg2+、Ca2+和葡萄糖溶液作为授精-激活介质对中华鲟精子受精率的影响

以不同浓度的NaCl、KCl、MgCl2、CaCl2溶液和葡萄糖溶液作为授精介质,研究了中华鲟(Acipenser sinensis)的受精效果.结果显示,适量的阳离子和葡萄糖作为激活授精介质时中华鲟卵受精率都有所提高.在实验设置浓度范围内25 mmol/L NaCI溶液、0.1 mmol/L KCl溶液、1 mmol/L MgCl2溶液、1 mmol/LCaCh溶液和50 mmol/L葡萄糖溶液浓度下,受精率分别可达到最高值,依次为87.72%、86.82%、82.24%、89.76%、80.92%.随着实验浓度继续增加,受精率反而呈下降趋势.结果显示,作为人工配制的中华鲟精子授精一激活介质,最适NaCI溶液浓度在25 mmol/L附近,最适葡萄糖溶液浓度在25 mmol/L附近,最适KCI溶液浓度≤0.1 mmol/L,最适MgCl2溶液浓度≤1 mol/L,最适CaCh溶液浓度≤1 mmol/L.     

环境因子对眼斑拟石首鱼精子活力的影响

通过测定精子的激活率、运动时间及寿命,研究了pH、盐度、离子及葡萄糖等因子变化对眼斑拟石首鱼(Csiaenops ocellatus)精子活力的影响。结果表明,眼斑拟石首鱼精液中精子平均浓度为(1.203±0.22)×10¹⁰个·mL^-1;精子激活与运动的适宜盐度范围为20～35,其中盐度25时精子的激活率、运动时间及寿命分别达94.32%、9.14min及12.55min;精子激活与运动的适宜pH为6.0～8.5,适宜的KCl、NaCl及CaCl₂溶液浓度分别为600～700mmol·L^-1、600mmol·L^-1及400～600mmol·L^-1,适宜的葡萄糖溶液浓度为700～900mmol·L^-1;精子在缺少HCO₃^-或Mg²⁺或Ca²⁺的人工海水中激活率与在人工海水中的激活率无显著差异,但运动时间和寿命有所缩短。     

几种不同浓度的离子及单糖对中华鲟精子活力的影响

本文研究在不同浓度Na 、K 、Ca2 、Mg2 、Cu2 及葡萄糖、果糖溶液中,中华鲟(Acipenser sinensisGray)精子活动情况。结果表明:Na 浓度为2‰时,中华鲟精子寿命时间(Life time,LT)最长,为347s,而Na 浓度为1‰时,中华鲟精子剧烈运动时间(Acute movement time,AT)最长,为98.67s,精子激活率在Na 浓度小于等于2‰时,为100%,随着Na 浓度的增加中华鲟精子激活率明显下降;与Na 溶液不同,在K 浓度为0.005‰时中华鲟精子活力最佳,其AT和LT最长,分别为80s和174s。而精子激活率随K 浓度增加而增强,在浓度为0.005‰时激活率最强为60%,然后快速下降;在Ca2 、Mg2 、Cu2 三种溶液中,随着三种溶液浓度的增加,中华鲟精子剧烈运动时间和寿命逐渐缩短,精子激活率逐步下降;与Ca2 、Mg2 、Cu2 三种溶液完全不同的是,随着葡萄糖和果糖两种单糖浓度的增加,中华鲟精子AT及精子LT逐渐延长。结果说明适量浓度的Na 、K 可以延长中华鲟精子AT及其LT,激活精子活力;而Ca2 、Mg2 、Cu2 三种溶液即使在较低浓度下都表现出对中华鲟精子AT、精子LT及其激活率明显的抑制作用;而葡萄糖和果糖则能有效地延长中华鲟精子AT和LT。     

鮸鱼精子的生理特性及超低温冻存

通过测定精子的激活率、运动时间及寿命,研究了鮸鱼精子的生理特性,以0.5mL麦细管为冻存管、两步降温法超低温冻存鮸鱼精子。结果表明,鮸鱼精子激活与运动的适宜盐度为20~30、适宜pH值为5.5~9.0,适宜的KCl、NaCl、CaCl2溶液浓度分别为（500~600）mmol/L、（400~500）mmol/L、（300~400）mmol/L,适宜的葡萄糖溶液浓度为（800~900）mmol/L。无Ca2＋、Mg2＋及HCO3-的人工海水均能使鮸鱼精子激活,但运动时间及寿命有所下降。以Cortland溶液为稀释液,10%Gly、15%Gly、5%DMSO、10%DMSO、15%DMSO、10%EG、10%PG、15%PG及20%PG为抗冻剂,超低温冻存鮸鱼精子15d后,冻精的活力与鲜精相比无显著差异,其中,以10%Gly为抗冻剂冻存精子的效果最好,冻精的激活率、运动时间及寿命分别达（86.38±1.63）%、（8.24±1.37）min及（10.21±0.42）min。     

环境因子及超低温冻存对黄姑鱼精子活力的影响

通过测定精子的激活率、运动时间及寿命研究了环境因子变化对黄姑鱼精子活力的影响及超低温冻存后黄姑鱼精子的活力。结果表明,黄姑鱼精子激活与运动的适宜盐度为25～35、适宜pH为7.5～8.5。在pH 8.0～8.5、盐度25条件下,精子激活率达(85.33±2.52)%,运动时间及寿命分别为(336±14.02)s及(405.33±12.22)s。精子激活与运动的适宜NaCl、KCl、MgCl₂及葡萄糖溶液浓度分别为300～500 mmol·L^-1、600 mmol·L^-1、800～1000 mmol·L^-1及900mmol·L^-1;精子在缺少HCO₃^-的人工海水中未能被激活;精子在无Ca²⁺或无Mg²⁺的人工海水中激活率均大于80%,但运动时间及寿命均有所缩短。以Cortland及HBSS溶液为稀释液、10%EG为抗冻剂冻存黄姑鱼精子,冻精激活率>80%,运动时间均超过200s。     

盐胁迫下小麦苗叶片吡咯-5-羧酸还原酶活性和游离脯氨酸积累

受NaCl、KCl或MsCl_2胁迫的小麦幼苗,当外部溶液的渗透势由—160 kPa下降到—900 kPa时,叶片吡咯—5—羧酸还原酶(PSC)活性增高;渗透势由—900 kPa降低到—1500kPa,酶活性下降;胁迫 1d和 2d的幼苗,还原酶活性显著增加;3～6d酶活性无大变化。游离脯氨酸含量随溶液渗透势下降和培养时间的延长而提高。胁迫解除后酶活性和脯氨酸含量均降低。受NcCl胁迫义在ABA影响下的幼苗,P5C还原酶活性和脯氨酸含量高于仅受NaCl胁迫的幼苗。     

氯化钙对非洲菊切花的保鲜作用

以 1 0mg ml的CaCl2 溶液作为保鲜液 ,对非洲菊切花进行瓶插试验 ,通过外部形态观察和生理指标测定 ,结果表明 :用CaCl2 溶液瓶插非洲菊切花可以增强花枝的吸水能力 ,增加花枝的鲜重 ,保持切花的水分平衡 ,减少溶质外渗 ,维持膜结构的相对稳定性 ,从而使切花的瓶插寿命比对照延长 3 3d。     

玫瑰切花保鲜剂配方研究

以蔗糖(S)、8-羟基喹啉(8-HQ)、柠檬酸(CA)为保鲜液的基本配方,分别加入CaCl2 、NaCl、Al2(SO4)3、CaCl2+KAl(SO4)2 组成四种保鲜液,进行玫瑰切花保鲜实验。对切花瓶插寿命、花径、水分平衡值、可溶性蛋白含量和还原糖含量进行分析。结果表明,各种配方保鲜液均能延长玫瑰切花的瓶插寿命、增大花径、改善切花水分代谢状况、降低切花蛋白质和还原糖的分解速度。其中,保鲜液2% S + 280 mg/L CA + 200 mg/L 8-HQ + 1% CaCl2的保鲜效果最好。     

高温高压灭菌对MS培养基pH的影响

常规蒸气高温高压灭菌明显改变MS培养基的pH值。灭菌前营养液pH在5～7范围时,其平均降低值（-△pH）约为0．56。灭菌前pH为7～8或8～9时,则-△pH分别为0．87和1．13。文中还比较了灭菌时间、培养基体积、琼脂、脱脂棉、PVP、NaCl、CaCl2、蔗糖、活性炭等因素对灭菌过程中MS培养基pH改变的效应。     

Effects of extracellular environment factors on the motility in Japanese eel spermatozoa

We have examined the effects in vitro of the ionic composition, pH and temperature on the motility by the spermatozoa of the Japanese eel (Anguilla japonica). Milt was obtained from 10 males that had been artificially matured by repeated injections of hCG. Sperm motility was monitored with a VHS video recorder and a video camera connected to a microscope. The results showed that most of the sperm were highly motile in 250-700 mM NaCl, 250-650 mM KCl and 350-550 mM CaCl2 solution. The longest duration of sperm motility recorded in 500 mM NaCl, 250 mM KCl and 350 mM CaCl2 solution. Sperm was not motile when suspended at pH 2, sperm motility was observed at pH 3, there was a relatively higher percentage of motile sperm in solutions at pH 4-12 (above 80%). The motility and duration increased within 18-24°C and decreased at the range of 24-30°C. Appropriate K+ ion concentration in the active medium could enhance the percent motility and duration of eel spermatozoa.     

Activation of sperm motility in striped bass via a cAMP-independent pathway

The objective of the present study was to identify the effect of osmolality, ions (K+, H+, Ca2+, Mg2+) and cAMP on the initiation of sperm motility in striped bass (Morone saxatilis). Striped bass spermatozoa remained motile in solutions isotonic to seminal plasma (350 mOsm/kg) until osmolality reached 600 mOsm/kg. K+ (0-100 mM) had no effect ( p>0.05 ) on sperm motility, and sperm displayed a high percentage of motility over a wide range of pH (6.0-8.5). Sperm motility could be initiated in Ca2+-free solutions. In contrast, sperm motility was inhibited (P<0.01) by solutions containing > or =10 mM Ca2+, and sperm could not be reactivated by a Ca2+-free solution. This Ca2+ inhibition was not affected by verapamil, a Ca2+ channel blocker. However, if sperm motility was first initiated in a Ca2+-free solution, the addition of Ca2+ solutions, up to 80 mM, failed to inhibit sperm motility, suggesting that Ca2+ inhibited the initiation of motility, but had no control of motile spermatozoa. Mg2+ solutions had similar inhibitory effects on sperm motility as Ca2+ solutions. Therefore, initiation of motility in striped bass sperm may be related to voltage-gated channels across the cell's plasma membrane. Membrane permeable cAMP did not initiate motility of quiescent, intact striped bass spermatozoa, and motility of demembranated sperm could be activated in the absence of cAMP.     

Comparison of sperm velocity, motility and fertilizing ability between firstly and secondly activated spermatozoa of common carp (Cyprinus carpio)

The objective of the study was to compare carp sperm motility performances (sperm velocity and motility rates) from 10 males including fertilizing ability (hatching rates from 10 males and eight females) as a function of time elapsed after sperm exposure to activation medium in two situations: firstly activated sperm and sperm which had terminated swimming and was ‘re‐activated’ after incubation in a K⁺ rich (200 mm KCl) non‐swimming solution. In case of both initial (first) and secondly activated spermatozoa, the motility was triggered in hatchery solution (HAS, 11.2 mOsmol) and in carp activation solution (CAS, 128.9 mOsmol) containing 45 mm NaCl, 5 mm KCl, 30 mm Tris–HCl while also adjusted to a pH of 8.0. First time activated sperm showed significantly higher relative motility, sperm velocity and fertilizing ability compared to re‐activated sperm. The carp spermatozoa (in either first or second activation) rapidly lost their fertilizing ability as a function of exposure time of sperm to diluents prior to addition to eggs: this shows that spermatozoa must be in contact with eggs as soon as their motility is triggered. When sperm was firstly activated in CAS and also activated a second time in CAS (labeled CASCAS) the hatching rate was significantly higher at egg contact after 10, 20, 30, and 120 s of activation. Also at 20 s after the second activation of the sperm higher sperm motility was observed compared to the first activation. This study showed that incubation of spermatozoa in a K⁺‐rich incubation medium can mitigate the affects of structural damages occurring in re‐activated sperm, which may help spermatozoa to increase their motility and fertilization. To our knowledge, the results presented in this study document for the first time that fertilization can be achieved with sperm re‐activated a second time while being exposed to a incubation medium that permits ATP reloading within the flagellum. Previous studies have show the potential for recovery of motility, however, the effect on possible fertilization is hitherto unknown. It critical outcome of the study clearly indicated the need for avoiding the use of different, subsequent activation media (e.g. first and second activation) but only on the same medium for both steps (see above CASCAS).     

Optimal physicochemical conditions for the manipulation and short-term preservation of koala (Phascolarctos cinereus) spermatozoa

Protocols for the successful manipulation and preservation of semen in a given species depend upon a fundamental knowledge of how spermatozoa respond to the physicochemical conditions of the extension media; methods developed for the preservation of eutherian spermatozoa may not necessarily be suitable for marsupial semen. The aim of this study was to investigate the effects on koala sperm motility of serial dilution, changes in temperature, diluent pH and osmolality to establish the optimal physicochemical conditions for short-term semen storage. This study showed that electroejaculated koala semen diluted 1∶1 (v/v) with PBS frequently coagulated after incubation at 35 degrees C, but that further dilution and incubation resulted in a corresponding increase in the percentage of spermatozoa swimming in a non-linear trajectory. The effect of rapid temperature change on the motility of koala spermatozoa was investigated by exposing semen, initially diluted at 35 degrees C, to temperatures of 45, 25, 15 and 5 degrees C. Although sperm motility was reduced after incubation at 45 degrees C, a rapid decrease in temperature of up to 20 degrees C did not result in a significant reduction in sperm motility. However, contrary to evidence in other marsupials, there was a small but significant decrease in sperm motility after rapid cooling of diluted semen from 35 to 5 degrees C. The effects of diluent pH and osmolality on the motility of koala spermatozoa were investigated. These experiments indicated that diluents for koala sperm manipulation should buffer in a pH range of 7-8 and have an osmolality of approximately 300 mmol kg(-1). The final experiment compared the relative effectiveness of Tris-citrate buffer (1% glucose) and PBS to maintain koala sperm motility over a range of incubation temperatures (5-35 degrees C) for up to 8 days. Reduction in sperm motility was directly related to temperature, and motility was sustained for the longest duration when stored at 5 degrees C. The Tris-citrate buffer solution was superior to PBS as a preservation diluent at all temperatures, and koala spermatozoa remained motile even after 42 days storage at 5 degrees C. Spermatozoa diluted in PBS (with Ca(2+) or Mg(2+)) and cooled to 5 degrees C showed evidence of an unusual motility pattern, similar to that of hyperactivated eutherian spermatozoa. This study showed that koala spermatozoa respond to different physicochemical conditions associated with short-term liquid storage in essentially the same way as the spermatozoa of eutherian mammals, although koala spermatozoa appear to be more tolerant of rapid temperature shock. The results of this study can be used to make informed selections with regard to appropriate diluent composition and improved short-term sperm preservation protocols and represent the first such database for any species of marsupial.     

Zona pellucida binding ability and responsiveness to ionophore challenge of cryopreserved dog spermatozoa after different periods of capacitation in vitro

The present study was aimed to evaluate the functional status of cryopreserved dog spermatozoa after different periods (2, 8 and 24 h) of capacitation in vitro. Sperm motility, viability and binding capacity to the zona pellucida of canine oocytes derived from frozen-thawed ovaries were evaluated at each time point. Sperm viability was assessed by flow cytometry using the Ca(2+)-sensitive indicator Fluo 3 AM and PI, to simultaneously detect the proportion of live spermatozoa and the existence of live sperm subpopulations with different intracellular Ca(2+) content. In addition, the acrosome reaction frequency in ionophore-treated aliquots of spermatozoa incubated in capacitating (CCM) versus non-capacitating (NCM) medium, were evaluated by using eosin-nigrosin staining at the same time intervals. The number of spermatozoa bound to the zona pellucida decreased in about 50% (from 18.61 +/- 14.40 to 7.7 +/- 6.97) when sperm incubation was prolonged from 2 to 8h, however, sperm motility, viability and the subpopulation of live spermatozoa with higher intracellular Ca(2+) concentration decreased in lower extent (10-15%). In CCM-incubated samples, the rate of acrosomal exocytosis in response to ionophore challenge was high (>80%), independently of the evaluation period. NCM-incubated sperm were not affected by ionophore treatment, however, their intracellular Ca(2+) concentration was no different than that observed in CCM-incubated spermatozoa. It was concluded that, after being capacitated, motile and viable spermatozoa seem to lose their ability to bind to the zona pellucida, but this loss is not accompanied by a reduced response to ionophore challenge and it may not be related with changes in the intracellular Ca(2+) concentration of spermatozoa.     

Motility of spermatozoa from shovelnose sturgeon and paddlefish

The spermatozoa in the seminal plasma from shovelnose sturgeon Scaphirhynchus platorynchus and paddlefish Polyodon spathula were immotile with only a few spontaneously motile spermatozoa for 5-10 and 10-20 s, respectively. Spermatozoa of shovelnose sturgeon were observed to be 100% motile immediately after sperm dilution in 10 m m NaCl and 20 m m Tris-HCl, pH 8.5. The duration of mass progressive movement was 2-3 min; and 1 to 5% of spermatozoa remain active after 360 s (P<0.01). Spermatozoa of paddlefish demonstrated the best motility 10 s after dilution in 10 m m NaCl with 20 m m Tris-HCl, pH 8.5. The duration of mass progressive movement was 2-3 min and 1 to 5% of spermatozoa remained active after 370 s ( p <0.01). The spermatozoa of shovelnose sturgeon and paddlefish were motile in a range of osmotic pressure from 0 to 100 mosmol kg⁻¹ and 0 to 120 mosmol kg⁻¹, respectively. The best results with short-term storage of sperm from shovelnose sturgeon and paddlefish were observed in 100 m m glucose + 20 m m Tris-HCl, pH 8.5 and 150 m m glucose + 20 m m Tris-HCl, pH 8.5.     

Significance of regional difference in ion concentrations in lizard, Hemidactylus flaviviridis (Rüppell): assessment of ionic influence on sperm motility in vitro

A gradual increase in the concentration of Ca2+ from anterior to the posterior region was observed when mono- and divalent cations were estimated in different segments of the epididymis in wall lizard. Na+ and K+ levels increased from anterior to middle segment but declined significantly in the posterior segment. However, no significant difference in the levels of Mg2+ was observed in various segments. To study the influence of mono- and divalent cations on sperm motility in vitro, the spermatozoa from posterior region of the epididymis were incubated in medium with varying concentrations of Na+, K+, Ca2+ and Mg2+. Spermatozoa were non-motile when suspended in Na+-free medium. Addition of NaCl induced the acquisition of sperm motility in a concentration-dependent manner. Further, amiloride, a Na+-influx blocker, markedly reduced the Na+-induced forward progressive motility. Unlike Na+, the presence of K+ or Ca2+ in the incubation medium reduced the motility of spermatozoa even at very low concentrations. The inhibitory effect of Ca2+ decreased when nifedipine, a Ca2+-influx blocker, was added to the medium. Mg2+ at high concentrations only was able to reduce the forward progressive motility.     

Effects of extenders and cryoprotectant combinations on motility and morphometry of sea bass (Dicentrarchus labrax) spermatozoa

The aim of this study was to evaluate the effects of different extenders on sea bass ( Dicentrarchus labrax) spermatozoa motility and morphology. Six sperm extenders based on inactivator media, DI₁ (here named SAN) and Non-Activating Medium (NAM) were tested with European sea bass spermatozoa. The best results were obtained with NAM medium (59.83 m m NaCl, 12.91 m m MgCl₂, 1.47 m m KCl, 3.51 m m CaCl₂, 20 m m NaHCO₃, 0.44 m m glucose) plus 1 and 2% of BSA (NAM1 and NAM2, respectively). The motility of the spermatozoa incubated in those media was similar to the fresh sperm until 48 h (NAM1: 74.3 ± 5.4; NAM2: 78.8 ± 5.8%, and higher than undiluted sperm, 19.1 ± 7.8). We also checked the spermatozoa motility and morphology reactions with some of the best extenders, NAM2 and SAN, and combined them with different concentrations (2, 5, 10%) of three cryoprotectants: methanol, glycerol and dimethyl sulphoxide (DMSO). Glycerol + SAN or NAM2 caused activation of spermatozoa motility, which was lost 5 min later. Methanol and DMSO plus NAM2 extenders resulted in a low activation level and high motility 5 min after incubation, identifying these combinations as good candidates to be used in the cryopreservation of the European sea bass spermatozoa.     

Relationships between reproductive characteristics in male Vimba vimba L. and the effects of osmolality on sperm motility

In Vimba vimba, GSI, sperm volume, and spermatozoa concentration range from 3.4-7.4 %, 0.1-1.1 ml, and 13.3-34.8 × 10⁹ spz ml⁻¹, respectively. Gonad mass (r = 0.90) and sperm volume (r = 0.35) significantly correlated with weight of males. Significant correlation was also found between gonad mass and length of males (r = 0.85). Sperm motility (r = 0.99) and velocity (r = 098) significantly decreased after activation in Tris-HCl 20 mM, pH 8.5. Osmolality of the seminal plasma was 273.2 mOsmol kg⁻¹. Sperm motility and velocity were significantly affected by the osmolality of the activation medium (P < 0.01). Hyper-osmolality compared to seminal plasma osmolality totally suppressed the sperm activation. At 15 s post-activation, the sperm motility significantly decreased at 240 mOsmol kg⁻¹ in KCl or NaCl media. The highest sperm motility and velocity (at 60 s post-activation) were observed at 200 mOsmol kg⁻¹ in NaCl, KCl, or sucrose media. In all treatments, the tip of the flagellum of spermatozoa became curled into a loop shape after activation of sperm in distilled water containing 20 mM Tris-HCl, pH 8.5 that shortened the flagellum.     

Effects of osmolality and ions on the motility of stripped and testicular sperm of freshwater-and seawater-acclimated tilapia, Oreochromis mossambicus

A significantly higher concentration of testicular spermatozoa was obtained from freshwater Oreochromis mossambicus (9·9×10⁹ spermatozoa ml⁻¹) than seawater O. mossambicus (4·6×10⁹ spermatozoa ml⁻¹). The mean osmolality of the urine of freshwater fish (78·5 mOsmol kg⁻¹) was significantly different from that of seawater fish (304·8 mOsmol kg⁻¹). The mean length of the mid-piece of the spermatozoa together with the tail was more variable in freshwater O. mossambicus (8·80±0·23μm) than in seawater specimens (8·27±0·18 μm). Stripped sperm of freshwater O. mossambicus was highly contaminated by urine which was a good activator of sperm motility in O. mossambicus held in both fresh and sea water. The osmolality for initiation of motility in freshwater O. mossambicus spermatozoa was from 0 to 333 mOsmol kg⁻¹ while for seawater O. mossambicus spermatozoa it was from 0 to 1022 mOsmol kg⁻¹. The optimum osmolality for motility was from 70 to 333 mOsmol kg⁻¹ for freshwater O. mossambicus spermatozoa and from 333 to 645 mOsmol kg⁻¹ for seawater fish. In freshwater O. mossambicus spermatozoa, the presence of 20 mM CaCl₂ increased the permissive osmolality of NaCl from 184 to 645 mOsmol kg⁻¹. For seawater O. mossambicus spermatozoa, solutions of NaCl devoid of CaCl₂ were unable initiate motility, but the addition of 1·5 to 30 mM CaCl₂ to the NaCl solution (0–934 mOsmol kg₁) had a full motility initiating effect.