热带亚热带植物学报
熱帶亞熱帶植物學報
열대아열대식물학보
JOURNAL OF TROPICAL AND SUBTROPICAL BOTANY
2010年
1期
1-8
,共8页
森林%苏应娟%张冰%王艇
森林%囌應娟%張冰%王艇
삼림%소응연%장빙%왕정
凤尾蕨科%rbcL基因%核酮糖-1,5-二磷酸羧化酶/加氧酶%放松分子钟模型%正选择位点
鳳尾蕨科%rbcL基因%覈酮糖-1,5-二燐痠羧化酶/加氧酶%放鬆分子鐘模型%正選擇位點
봉미궐과%rbcL기인%핵동당-1,5-이린산최화매/가양매%방송분자종모형%정선택위점
Pteridaceae%rbcL gene%Ribulose-1,5-biposphate carboxylase/oxygenase%Relaxed molecular clockmodel%Positive selection
为深入理解蕨类植物辐射式物种分化的分子适应机制,在时间框架下,采用位点模型和分支-位点模型对凤尾蕨科植物rbcL基因的进化式样进行了分析.通过比较模型M1a/M2a和M7/M8,在氨基酸水平上共鉴定出6个正选择位点:1491、251M、255V、282F、359S和375F,其中位点282F对维持Rubisco功能有重要作用.分别检验凤尾蕨科的附生分支和水蕨类分支发现,前者不具适应性进化位点,而后者有两个位点(230A和247C)经历正选择.相对于荫蔽的光条件,水生生境可能对RbcL亚基的选择作用更强.另外,基于UCLD分子钟模型估算出的风尾蕨科各分支分化时间表明,该科物种丰富度的辐射式增长发生在新生代渐新世,推测古、始新世最热事件可能对物种分化的形成也产生一定作用.这对认识薄囊蕨类如何应对被子植物兴起导致的陆地生态系统改变具重要意义.
為深入理解蕨類植物輻射式物種分化的分子適應機製,在時間框架下,採用位點模型和分支-位點模型對鳳尾蕨科植物rbcL基因的進化式樣進行瞭分析.通過比較模型M1a/M2a和M7/M8,在氨基痠水平上共鑒定齣6箇正選擇位點:1491、251M、255V、282F、359S和375F,其中位點282F對維持Rubisco功能有重要作用.分彆檢驗鳳尾蕨科的附生分支和水蕨類分支髮現,前者不具適應性進化位點,而後者有兩箇位點(230A和247C)經歷正選擇.相對于蔭蔽的光條件,水生生境可能對RbcL亞基的選擇作用更彊.另外,基于UCLD分子鐘模型估算齣的風尾蕨科各分支分化時間錶明,該科物種豐富度的輻射式增長髮生在新生代漸新世,推測古、始新世最熱事件可能對物種分化的形成也產生一定作用.這對認識薄囊蕨類如何應對被子植物興起導緻的陸地生態繫統改變具重要意義.
위심입리해궐류식물복사식물충분화적분자괄응궤제,재시간광가하,채용위점모형화분지-위점모형대봉미궐과식물rbcL기인적진화식양진행료분석.통과비교모형M1a/M2a화M7/M8,재안기산수평상공감정출6개정선택위점:1491、251M、255V、282F、359S화375F,기중위점282F대유지Rubisco공능유중요작용.분별검험봉미궐과적부생분지화수궐류분지발현,전자불구괄응성진화위점,이후자유량개위점(230A화247C)경력정선택.상대우음폐적광조건,수생생경가능대RbcL아기적선택작용경강.령외,기우UCLD분자종모형고산출적풍미궐과각분지분화시간표명,해과물충봉부도적복사식증장발생재신생대점신세,추측고、시신세최열사건가능대물충분화적형성야산생일정작용.저대인식박낭궐류여하응대피자식물흥기도치적륙지생태계통개변구중요의의.
To further understand the molecular adaptation linked to fern radiation, evolutionary patterns of the rbcL sequences in the family Pteridaceae were examined using random-site and branch-site models along with the estimated time-scale of pteridaceous phylogeny.By comparing Models M1 a/M2a and M7/M8 under random-site models, six amino acid sites (149I, 251M, 255V, 282F, 359S and 375F) were found to be positively selected.The site 282F plays an important role in maintaining Rubisco function.Under branch-site models, no adaptive site was identified in the epiphytic clade, whereas two sites (230A and 247C) were detected in the eeratopteridoid clade.In comparison with shade conditions, aquatic habitats may have imposed stronger selection on the pteridaceous RbcL subunits.Moreover, the phylogenetic tree reconstructed with uncorrelated lognormal distributed relaxed clock model shows that the pteridaceous fern radiations occurred during the Oligocene, suggesting possible roles played by the Paleocene-Eocene Thermal Maximum.These results provide new insights into how leptosporangiate ferns response to the terrestrial ecosystem changes caused by the rise of angiosperms.