菌柄

而Pb在菌盖和菌柄中含量则无差别；

There were no different content of Pb in cap and stipe .

菌盖中Cd、Hg和As含量分别是菌柄的3.75、2.75和2.27倍；

The content of Cd , Hg and As in cap was 3.75 , 2.75 , 2.27 times , respectively than in stipe .

GA3、ZR的浓度决定着菌柄在不同发育时期的生长率。

The concentration of GA3 and ZR corresponded with stipe growth rate in different development stage .

子实体的不同部位中，菌褶中三种酶的活性均为最低，而菌肉和菌柄中酶活性相对较高。

The lowest enzyme activity appeared in gill and higher activities in pileus and stipe .

二氧化碳浓度对菌柄直径的大小影响不明显。

The impact of carbon dioxide concentration on the diameter of the stalk is not obvious .

低浓度和高浓度二氧化碳均有利于菌柄长度的伸长。

Low and high concentrations of carbon dioxide are conducive to stretch the length of the stalk .

此蛋白对微晶纤维素没有水解酶活性但是对大麦β-葡聚糖有很强的水解酶活性，它不具有引起菌柄细胞壁伸长的功能。

It has strong hydrolytic enzyme activity against barley β - glucan , but did not exhibit cellulose activities .

试验结果表明，松茸菌丝体分离的适宜组织部位是新鲜松口蘑的菌褶，而以前报道的菌柄并不适合作为菌丝体分离。

The results also showed that stipe , mycorrhizae , and soil with the fungi are not fit for Tricholoma matsutake isolation .

用虫草的虫体、菌柄、子座、及子囊孢子进行了纯培养分离，结果获得了分生孢子阶段的真菌的纯培养物。

The isolation of pure culture by using hyphal , stipe , stroma and ascospore obtained the pure culture of conidium phase .

结果表明，常规分离适于从子实体的各种菌组织分离获得菌株，并以菌柄前端组织分离效果最好。

The results showed that conventional isolation could obtain strains from different tissues of fruit body and tissue of stipe top is the most suitable material .

在灵芝各组织部位中，菌褶硒含量最高，菌柄次之，菌盖最低；

Among several parts of ? Ganoderma ? Fruit body , the pleat , followed by the stem and the cap , has the highest content of selenium .

在污染条件下，菌柄中铅含量显著高于菌盖和菌褶，而镉的含量仍然显著低于菌盖和菌褶。

Under Polluted conditions , the lead content of stipe was significantly higher than gill and cap , but the distribution of Cd is still the same with Pollution-free .

在子实体发育的幼小阶段，菌柄、菌柄与菌盖之间组织的脱氢酶活性高于菌褶和菌肉组织中的酶活。

The dehydrogenase activity from the tissues of the stipe and between the stipe and pileus is higher than the lamella and context tissues during young growth of the fructification .

当子实体发育之早期菌柄细胞总是变倍的，快速生长期之菌柄中间和顶端细胞的平均数是10.1-10.3。

The number of nuclei in stipe cells almost doubled during early fruiting development and increased to a mean of 10.1-10.3 in the middle and tip cells during rapid stipe elongation .

姬松茸具有浓郁的杏仁香味，菌盖嫩，菌柄脆，美味可口，含有丰富的蛋白质和其他营养成分，营养价值很高。

ABM has a strong flavor of almond and tastes delicious . Its soft cap and crispy stipe contain high amount of proteins and other nutrients , which are of high nutrition value .

擦菇松机是一种可将不宜直接食用的香菇菌柄加工成新型营养食品香菇松的关键设备。

Grinding floss machine is one of the key machines by which can be used to produce a new type of green food by utilizing shiitake stems , which are unsuitable for direct eating .

必需氨基酸的含量十分接近于非必需氨基酸的含量（比率为1.00∶1.04），无论总氨基酸含量还是必需氨基酸含量，菌盖中的皆略高于菌柄中的。

The content of essential amino acids was close to that of nonessential amino acids ( its ratio was 1.00 ∶ 1.04 ) . In addition , total and essential amino acid contents in the cap are slightly higher than those in the stipe .

结果表明：子实体菌褶部位分离成功率最高，达50%，菌肉与菌柄基部为15%，菌柄中上部外缘与中央为10%；

The results showed that separative rate of lamellae of fruit body was the highest , which was 50 % , separative rate of context and stipe bottom was 15 % respectively , and separative rate of bordering and center of top-center part of stipe was 10 % respectively ;

在灵芝各组织部位中，菌褶硒含量最高，菌柄次之，菌盖最低；结果实验结果表明灵芝菌珠的富铬能力及菌丝体的产率较高。

Among several parts of ? Ganoderma ? fruit body , the pleat , followed by the stem and the cap , has the highest content of selenium . Result : The Result indicated Ganoderma lucidum is capable of enriching chromium and has a high yield ratio of mycelium .