采用16s rDNA通用引物进行PCR扩增，16s rDNA扩增片段经寡位点酶组合（Hae Ⅲ + Hind Ⅲ）和多位点酶组合（HinfⅠ+ TaqⅠ）酶切后得到

ARDRA指纹图谱，ARDRA指纹图谱通过MVSP软件进行聚类分析（UPGMA），并对5大类群的代表菌株进行测序，研究了5龄思茅松毛虫Dendrolimu

kikuchii Matsumura肠道细菌的多样性。结果表明：寡位点酶组合（Hae Ⅲ + Hind Ⅲ）或多位点酶组合（HinfⅠ+ TaqⅠ）酶切得到的ARDRA

指纹图谱不能反映5龄思茅松毛虫肠道细菌的多样性，两组酶切结果组合后可以充分反映5龄思茅松毛虫肠道细菌的多样性。通过测序可知，5

龄思茅松毛虫的肠道内主要定植产酸克雷伯氏杆菌（Klebsiella oxytoca）、雷金斯堡约克氏菌(Yokenella regensburgei)、克雷伯氏杆菌（

Klebsiella peneumoniae）、弗氏柠檬酸杆菌（Citrobacter freundii）、苏云金芽孢杆菌（Bacillus thuringiensis），多样性丰富，它们

形成的肠道微生物生态系统可以抵制外来菌对恩茅松毛虫的侵害，维持恩茅松毛虫的健康。

In order to investigate the diversity of the intestinal aerobic bacteria of the 5th instar larvae of Dendrolimus kikuchii

Matsumura the characteristic ARDRA fingerprint of the larvae’s intestinal bacteria was obtained by amplifying 16S rDNA with

a general primer and digesting the 16S rDNA PCR amplicon (about 15 kb) with four restriction enzymes (Hae Ⅲ, Hind Ⅲ,

HinfⅠ and TaqⅠ). ARDRA patterns were analyzed by MVSP software using the UPGMA method，and the full complement of 5

representative strains’ 16S rDNA were sequenced and blasted in GenBank. Although a few enzyme combinations (Hae Ⅲ + Hind

Ⅲ and  Hinf Ⅰ + Taq Ⅰ) could not completely digest the 16S rDNA PCR amplicon, the diversity of intestinal bacteria could

be inferred from the results obtained from all four restriction enzymes. The results of phylogenetic analysis based on

sequencing show that intestinal aerobic bacteria from the 5th instar larvae of D. kikuchii include Klebsiella oxytoca,

Yokenella regensburgei, Klebsiella peneumoniae, Citrobacter freundii and Bacillus thuringiensis. This diverse intestinal

microbial ecosystem may help protect larvae from invasion by invasive pathogenic bacteria.