肺形侧耳‘杭秀2号’的选育

肺形侧耳‘杭秀2号’以‘台秀57’菌株为亲本采用多孢自交育种技术选育而成。该品种菌丝生长适温26-28℃,子实体生长发育适温22-28℃。菌盖扇形,深灰色,菌盖大小平均为4.38cm×3.65cm;菌柄圆柱形,白色,直径平均为1.06cm。鲜菇蛋白质含量2.94%,氨基酸总量2.54%。示范栽培表明,‘杭秀2号’平均生物学效率为71.2%。低温刺激后,经5-6d可完成一茬菇采收。该品种具有出菇整齐、商品性好等优良性状,适于设施栽培。     

斑玉蕈‘闽真5号’的选育报告

斑玉蕈‘闽真5号’品种系以‘闽真3号’与‘白玉-01’作为亲本,通过原生质体单核化杂交育种技术选育获得。该品种菌盖白色,呈半球形,表面斑纹少而小。鲜菇蛋白质含量2.1%,氨基酸总量1.43%。示范栽培表明,‘闽真5号’菌丝最适培养温度20-27 ℃,子实体生长发育温度12-17 ℃,袋栽菌包培养周期为110 d,出菇周期为28 d,平均单袋产量635.17 g/袋。该品种具有栽培周期短、产量高、商品性状好等优良性状,适用于袋栽工厂化周年栽培。     

中国美味蘑菇‘申美1号’的选育

中国美味蘑菇Agaricus sinodeliciosus‘申美1号’品种是野生种人工驯化、选育而来。经过多年的示范栽培表明：‘申美1号’具有中温生长（菌丝生长23℃,出菇16-18℃）,产量较高（生物学效率50%）,菌龄较短（53d）,菇型圆整,菇质紧实,香味浓郁,遗传稳定性高等优良特性,适宜于中国美味蘑菇菌袋栽培模式,能够满足设施化栽培用种需求。     

猴头菌‘川猴菇1号’的选育

猴头菌新品种‘川猴菇1号’是从黑龙江海林市采集到的野生猴头菌（HT2000）经系统选育而成,适宜四川省凉山州地区及类似生态区域栽培。菌丝生长最适温度为20-25℃,出菇最适温度15-20℃,生育期45-50d,单个子实体130-170g,呈白色至黄白色,中实有弹性,生物转化率85%。     

双孢蘑菇‘福蘑58'的选育报告

双孢蘑菇‘福蘑58'是W2000单孢分离筛选的新品种。菌落形态为贴生型,菌丝在10-32℃下均能生长,最适生长温度24-28℃。结菇温度10-22℃,最适结菇温度14-20℃。子实体单生为主,丛生少,较结实,不易开伞,菌盖扁半球形,表面光滑,颜色较白,直径3.5-5.0cm,高度2.4-2.8cm。在适宜栽培条件下,平均单产比亲本菌株W2000提高10%-15%,鲜菇质量与W2000相当,比W192提升明显,成品菇比例较高,品质优良,适合鲜销市场及罐头加工。该品种可用于周年工厂化、设施化及季节性农法栽培。     

黑木耳‘高原云耳3号’的选育报告

‘高原云耳3号’由采自云南保山大平坦山区的一株野生黑木耳,通过驯化栽培、组织分离等多代自然选育获得。子实体大小中等,耳片中间层厚、腹面和背面易分离;呈浅口圆碗状,有光泽,质地柔软,无耳脉。采用小孔栽培,开口10 d左右现芽,出耳温度10-26 ℃。产量高,抗逆性强,是性状较好的一个中早熟中低温型品种。适宜海拔1 000-2 000 m的低纬高原地区规模化栽培。     

毛木耳‘昊阳黄背2号’的选育报告

毛木耳新品种‘昊阳黄背2号’是以采自什邡市龙泉山的野生毛木耳子实体经系统选育而成,适宜四川省成都市、德阳市等种植毛木耳的区域栽培。菌丝生长最适温度为24-30 ℃,子实体最适生长温度为25-28 ℃。耳片呈耳形或不规则形,子实体丛生;耳片边缘光滑,颜色深红褐色。平均每袋干耳产量为203 g。     

香菇‘豫香2号’的选育报告

‘豫香2号’是从河南省卢氏县伏牛山地区采集的野生香菇子实体,经过多次组织分离和驯化等系统选育而获得的优良品种,适宜河南省中高海拔区域种植。该品种子实体中等,多单生,菌盖圆整、浅褐色,菌柄呈倒圆锥形,产量高,鲜销耐储存。     

黑木耳‘农黑2号'的选育报告

黑木耳新品种‘农黑2号'是以亲本‘木耳黑龙3号'和‘黑耳9号'的单孢进行杂交,从70个杂交组合中选育的新品种。工厂化栽培条件下,‘农黑2号'单潮出菇鲜重平均为336.4g/袋,干重平均为28.5g/袋,流耳率平均为3.8%。‘农黑2号'具有抗杂能力强、流耳率低、单潮产量高等优点,且能够很好地适应工厂化栽培条件。     

木耳‘农黑1号'的选育报告

黑木耳新品种‘农黑1号'是以黑木耳‘Au5'和‘木耳黑龙3号'作为亲本菌株,通过单孢杂交配对选育而来。工厂化条件下的生产性试验结果表明：‘农黑1号'的第一潮平均鲜耳产量达到322.4g/袋,干耳产量平均为29.0g/袋,出耳率平均为93.3%,生产周期平均为71d。综合来看,‘农黑1号'具有产量高、周期短、出耳率高、一致性好等优点,可作为黑木耳工厂化栽培的优良新品种。     

暗褐网柄牛肝菌‘YL1701-2’的选育报告

以野生驯化栽培品种HZ14080和野生菌株HZ16009为亲本,经孢子单核菌丝有性杂交选育获得YL1701-2。其菌丝生长适温25-32 ℃,子实体发育适温25-32 ℃。该品种具有菌柄粗壮、菌盖厚且大、菇肉紧实、出菇早、抗逆能力强、生长周期短、出菇整齐、成品率较高和产量高的优势;具有伤后不变或轻微变色、特有土味淡和商品化程度高的特点。既可袋栽也可瓶栽,但以瓶栽为主。目前该菌株已大量用于生产且已获得专利授权。     

HMGB‐1 induces c‐kit+ cell microvascular rolling and adhesion via both toll‐like receptor‐2 and toll‐like receptor‐4 of endothelial cells

High-mobility group box 1 (HMGB-1) is a strong chemo-attractive signal for both inflammatory and stem cells. The aim of this study is to evaluate the mechanisms regulating HMGB-1–mediated adhesion and rolling of c-kit⁺ cells and assess whether toll-like receptor-2 (TLR-2) and toll-like receptor-4 (TLR-4) of endothelial cells or c-kit⁺ cells are implicated in the activation of downstream migration signals to peripheral c-kit⁺ cells. Effects of HMGB-1 on the c-kit⁺ cells/endothelial interaction were evaluated by a cremaster muscle model in wild-type (WT), TLR-2 (−/−) and Tlr4 (LPS-del) mice. The mRNA and protein expression levels of endothelial nitric oxide synthase were determined by quantitative real-time PCR and immunofluorescence staining. Induction of crucial adhesion molecules for rolling and adhesion of stem cells and leukocytes were monitored in vivo and in vitro. Following local HMGB-1 administration, a significant increase in cell rolling was detected (32.4 ± 7.1% in ‘WT’ versus 9.9 ± 3.2% in ‘control’, P < 0.05). The number of firmly adherent c-kit⁺ cells was more than 13-fold higher than that of the control group (14.6 ± 5.1 cells/mm² in ‘WT’ versus 1.1 ± 1.0 cells/mm² in ‘control’, P < 0.05). In knockout animals, the fraction of rolling cells did not differ significantly from control levels. Firm endothelial adhesion was significantly reduced in TLR-2 (−/−) and Tlr4 (LPS-del) mice compared to WT mice (1.5 ± 1.4 cells/mm² in ‘TLR-2 (−/−)’ and 2.4 ± 1.4 cells/mm² in ‘Tlr4 (LPS-del)’ versus 14.6 ± 5.1 cells/mm² in ‘WT’, P < 0.05). TLR-2 (−/−) and Tlr4 (LPS-del) stem cells in WT mice did not show significant reduction in rolling and adhesion compared to WT cells. HMGB-1 mediates c-kit⁺ cell recruitment via endothelial TLR-2 and TLR-4.     

Effects of the Mi-1, N and Tabasco Genes on Infection and Reproduction of Meloidogyne mayaguensis on Tomato and Pepper Genotypes

Meloidogyne mayaguensis is a damaging root-knot nematode able to reproduce on root-knot nematode-resistant tomato and other economically important crops. In a growth chamber experiment conducted at 22 and 33°C, isolate 1 of M. mayaguensis reproduced at both temperatures on the Mi-1-carrying tomato lines BHN 543 and BHN 585, whereas M. incognita race 4 failed to reproduce at 22°C, but reproduced well at 33°C. These results were confirmed in another experiment at 26 ± 1.8°C, where minimal or no reproduction of M. incognita race 4 was observed on the Mi-1-carrying tomato genotypes BHN 543, BHN 585, BHN 586 and ‘Sanibel’, whereas heavy infection and reproduction of M. mayaguensis isolate 1 occurred on these four genotypes. Seven additional Florida M. mayaguensis isolates also reproduced on resistant ‘Sanibel’ tomato at 26 ± 1.8°C. Isolate 3 was the most virulent, with reproduction factor (Rf) equal to 8.4, and isolate 8 was the least virulent (Rf = 2.1). At 24°C, isolate 1 of M. mayaguensis also reproduced well (Rf ≥ 1) and induced numerous small galls and large egg masses on the roots of root-knot nematode-resistant bell pepper ‘Charleston Belle’ carrying the N gene and on three root-knot nematode-resistant sweet pepper lines (9913/2, SAIS 97.9001 and SAIS 97.9008) carrying the Tabasco gene. In contrast, M. incognita race 4 failed to reproduce or reproduced poorly on these resistant pepper genotypes. The ability of M. mayaguensis isolates to overcome the resistance of tomato and pepper genotypes carrying the Mi-1, N and Tabasco genes limits the use of resistant cultivars to manage this nematode species in infested tomato and pepper fields in Florida.