During the freezing and thawing process, fatty acids in the plasma membrane of sperm are released, which results in a functional damage of sperm. Sperm with functional loss due to cryo-damage result in a decrease in fertility. Previous studies have shown that the addition of one of the fatty acid alpha-linolenic (ALA) with carrier proteins improves the stability of plasma membrane and reduces the damage. In this experiment, we focused on the functional aspects of the plasma membrane of sperm and experimented with motility and morphology. For preparation of ALA-carrier protein complex, 3 ng/ml ALA was mixed with 0.7 μg/ml bovine serum albumin (BSA) or 14 ng/ml methyl-β-cyclodextrin (MBCD) in distilled water. The boar semen was purchased from GUMBO Company. Boar semen was cryo-preserved in 20% egg yolk freezing extender containing ALA, BSA, MBCD, ALA+BSA, ALA+MBCD. The frozen boar sperm was thawed at 37.5 ℃ for 45 sec in water-bath. The sperm motility and morphological abnormalities were evaluated under a phase-contrast microscope at 200 × magnification and randomly counts of 200 sperm each sample. In results, motility of frozen-thawed sperm was increased in all treatment groups. In particular, there has been significant improvement in ALA+BSA and ALA+MBCD treatment groups than control (p<0.05). However, there was no significant difference in ALA, BSA and MBCD treatment groups. Morphological normalities in frozen-thawed sperm was reduced in complex treatment groups (p<0.05). However, there was no significant difference in single treatment groups. In both motility and morphology characteristics, ALA+BSA and ALA+MBCD treatment group was higher than all treatment groups. In conclusion, the addition of ALA with carrier proteins during cryopreservation has a positive effect in its functional aspect.
This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korea government (Ministry of Education) (2016R1D1A1B03931746).
The present study was conducted to investigate the effect of different heights from liquid nitrogen (LN2) vapor on sperm motility and morphology after frozen-thawing. Two ejaculates were collected from 2 fertile Hanwoo bulls (A and B) by using artificial vagina at Hanwoo Research Institute. After collection, ejaculates were transferred to laboratory immediately and diluted with semen extender (Optixcell, France). Sperm dilutions were extended to a final concentration of 40 x 106 sperm/ml, and cooled at 4°C for 4 h and loaded to 0.5 ml straws. The straws were divided into 2 groups. Straws were placed in 3 or 9 cm of LN2 vapor for 14 min and then plunged into LN2 tank and cryopreserved until evaluation. Sperm motility and motility parameters (total motility, VSL with 25μm≥, VCL, VSL, VAP, LIN, STR, WOB, ALH and BCF) were evaluated by sperm class analysis (SCA, IVOS, Spain) after frozen-thawed. In bull A, 3cm group showed higher percentages of total motility, VSL with 25μm and VAP compared those with 9cm group (98.0 vs. 93.4%, 62.4 vs. 54.0% and 98.6 vs. 93.2%, 3 vs. 9 cm, irrespectively; p<0.001). In bull B, frozen-thawed sperm of 3cm group showed higher percentages of VSL with 25μm, VCL, VSL, VAP and BCF compared with those of 9cm group (43.5 vs. 26.0%, 123.8 vs. 111.6 μm, 62.9 vs. 57.3 μm and 81.5 vs. 72.5 μm; 3 vs. 9 cm, irrespectively; p<0.001). The viability and acrosomal integrity of spermatozoa were evaluated by Trypanblue/Giemsa staining method divided into 4 groups; live and intact acrosome (LIA), live and damaged acrosome (LDA), dead intact acrosome integrity (DIA), dead damaged acrosome (DDA). In bull A, frozen-thawed sperm of 3 and 9cm groups showed no significant difference in LIA, LDA, DIA and DDA. In bull B, 3 cm group showed higher LIA and lower DIA compared with those of 9 cm group (73.2 vs. 23.7% and 23.7 vs. 32.2%, 3 vs. 9 cm, irrespectively; p<0.001). We suspected that 3 cm vapor on LN2 vapor might be affected positively spermatozoa viability and acrosomal integrity compared with 9 cm group. In conclusion, semen freezing procedure in the present study will improve sperm quality after frozen thawing.
정자의 동결보존을 위한 새로운 기술개발 목적은 동결과정에서 최소한의 손상으로, 응해 후 최대한 높은 활력도의 정자를 얻는 것이다 정자가 난자와 수정하기 위해서는 적당한 생존성과 운동성을 유지해야 하는데, 가장 일반적인 방법으로는 정자의 진진 운동성과 첨체의 정상 여부 및 형태 검사방법 등이 있다 본 연구는 사람 정액을 동결보존 할 때 semi-programmable freezer를 이용한 완만동결 방법과, 액체질소의 vapor를 이용한 급속동결 방법이
소와 견에 있어서 Unopette가 정자의 형태학적 검사 및 정자농도의 검사를 위하여 사용될 수 있는가를 알아 보기 위하여본 연구를 수행하였다. 소정액 및 견정액을 Unopette에 희석한 후 3-5에 보존하면서 시간경과에 따라서 위상차현미경하에서 관찰하여 다음과 같은 결과를 얻었다. 1. Unopette를 사용하여 관찰한 정자는 48시간까지는 hematoxylin-eosin을 사용하여 정자보다는 높은 정상정자율을 나타내넜다. 2. Unopette를 사
Ultrastructural characteristics of the germ cells and accessory cells in testis during spermatogenesis and taxonomic values of mature sperm morphology of Ruditapes philippinarum were investigated by the transmission electron microscope and scanning electron microscope observations. The testis is the diffuse organ that consists of branching acini containing developing germ cells and accessory cells associated with spermatogenesis. The morphology of the spermatozoon is of the primitive type and is somewhat different to those of other bivalves. The morphologies of the sperm nucleus type and the acrosome shape of this species have a cylinderical type and a modified cone shape, respectively. As some ultrastructural characteristics of the acrosomal vesicle, the peripheral parts of two basal rings show electron opaque part, while the apex part of the acrosome shows electron lucent part. These characteristics of sperm belong to the family Veneridae in the subclass Heterodonta, unlike a characteristic of the subclass Pteriomorphia showing all part of the acrosome being composed of electron opaque part. In particular, a cylinder-like nucleus of the sperm is curved. The spermatozoon is approximately 48-51 μm in length, including a long acrosome (about 2.40 μm in length), a curved sperm nucleus (about 3.40 μm in length), and a tail flagellum. The axoneme of the sperm tail shows a 9+2 structure.
The ultrastructural characteristics of germ cell differentiations during spermatogenesis and mature sperm morphology in male () were evaluated via transmission electron microscopic observation. The accessory cells, which contained a large quantity of glycogen particles and lipid droplets in the cytoplasm, are assumed to be involved in nutrient supply for germ cell development. Morphologically, the sperm nucleus and acrosome of this species are ovoid and conical in shape, respectively. The acrosomal vesicle, which is formed by two kinds of electron-dense or lucent materials, appears from the base to the tip: a thick and slender elliptical line, which is composed of electron-dense opaque material, appears along the outer part (region) of the acrosomal vesicle from the base to the tip, whereas the inner part (region) of the acrosomal vesicle is composed of electron-lucent material in the acrosomal vesicle. Two special characteristics, which are found in the acrosomal vesicle of A. () in Pinnidae (subclass Pteriomorphia), can be employed for phylogenetic and taxonomic analyses as a taxonomic key or a significant tool. The spermatozoa were approximately in length, including a sperm nucleus (about in length), an acrosome (about in length), and a tail flagellum (about ). The axoneme of the sperm tail evidences a 9+2 structure.
Spermatogenesis and taxonomic values of mature sperm morphology of in male Septifer (Mytilisepta) virgatus were investigated by transmission electron microscope observations. The morphologies of the sperm nucleus and the acrosome of this species are the cylinder shape and cone shape, respectively. Spermatozoa are approximately 45-50 in length including a sperm nucleus (about 1.26 long), an acrosome (about 0.99 long), and tail flagellum (about 45-47 ). Several electron-dense proacrosomal vesicles become later the definitive acrosomal vesicle by the fusion of several Golgi-derived vesicles. The acrosome of this species has two regions of differing electron density: there is a thin, outer electron-dense opaque region (part) at the anterior end, behind which is a thicker, more electron-lucent region (part). In genus Septifer in Mytilidae, an axial rod does not find and also a mid-central line hole does not appear in the sperm nucleus. However, in genus Mytilus in Mytilidae, in subclass Pteriomorphia, an axial rod and a mid-central line hole appeared in the sperm nucleus. These morphological differences of the acrosome and sperm nucleus between the genuses Septifer and Mytilus can be used for phylogenetic and taxonomic analyses as a taxonomic key or a significant tool. The number of mitochondria in the midpiece of the sperm of this species are five, as seen in subclass Pteriomorphia.