小麦磷酸丙糖转运器cDNA的克隆及其基因表达分析

利用RT_PCR方法以及RACE(rapidamplificationofcDNAends)策略 ,从小麦 (TriticumaestivumL .)幼苗叶片中克隆了编码磷酸丙糖转运器 (TPT)的全长cDNA。序列分析结果表明 ,小麦TPTcDNA编码 40 2个氨基酸的前体蛋白 ,其中信号肽含有 78个氨基酸。成熟蛋白部分与玉米 (ZeamaysL .)TPT有很高的同源性 (89% )。推测小麦TPT成熟蛋白有 8个跨膜区 ,形成双亲α_螺旋的跨膜结构。位于第 7个跨膜区的Arg_2 74和Lys_2 75可能是底物结合位点。比较TPT基因在小麦幼苗的根、胚芽鞘、叶片和种子中的表达差异表明 :TPT基因在叶片、胚芽鞘中均有表达 ,但在胚芽鞘中的表达量较低 ,在种子和根中未见有表达。由此看来 ,小麦TPT的基因可能只局限在绿色组织中表达。还就C3 和C4植物TPT不同的底物特异性问题进行了讨论     

小麦TaLhca基因的克隆及表达分析

为了从分子水分研究小麦的光合作用,该研究采用RT-PCR方法,从小麦品种‘百农207’的叶中克隆到1个捕光叶绿素a/b结合蛋白基因,命名为TaLhca。序列分析结果表明,TaLhca的编码区序列(coding DNA sequence,CDS)长810 bp,编码269个氨基酸,推测分子量为29.31 kD,等电点为8.69。TaLhca被定位于叶绿体,无信号肽,存在3个明显的跨膜区域,预测其蛋白结构含有典型的捕光叶绿素a/b结合蛋白功能域(chlorophyll a/b binding domain),为亲水性非分泌蛋白。蛋白序列比对和进化树分析表明,小麦与二穗短柄草(Brachypodium distachyon)和水稻(Oryza sativa)中的Lhca序列相似性最高,亲缘关系最近。启动子顺式作用元件预测表明,启动子区域包含多个光响应元件及逆境响应元件。实时荧光定量PCR分析表明,TaLhca基因在小麦根、茎、叶中均有表达。其中在叶中表达量最高,在根中表达量最低,且受NaCl、干旱、ABA、H2O2和低温胁迫表达增强,受黑暗胁迫表达降低。该研究结果为进一步解析小麦光合作用机理及其相关基因的诱导表达特性提供了依据。     

小麦磷酸丙糖转运器cDNA的克隆及其基因表达分析

利用RT-PCR方法以及RACE(rapid amplification of cDNA ends)策略,从小麦(Triticum aestivum L.) 幼苗叶片中克隆了编码磷酸丙糖转运器(TPT)的全长cDNA.序列分析结果表明,小麦TPT cDNA编码402个氨基酸的前体蛋白,其中信号肽含有78个氨基酸.成熟蛋白部分与玉米(Zea mays L.)TPT有很高的同源性(89%).推测小麦TPT成熟蛋白有8个跨膜区,形成双亲α-螺旋的跨膜结构.位于第7个跨膜区的Arg-274和Lys-275可能是底物结合位点.比较TPT基因在小麦幼苗的根、胚芽鞘、叶片和种子中的表达差异表明:TPT基因在叶片、胚芽鞘中均有表达,但在胚芽鞘中的表达量较低,在种子和根中未见有表达.由此看来,小麦TPT的基因可能只局限在绿色组织中表达.还就C3和C4植物TPT不同的底物特异性问题进行了讨论.     

番茄抗黄叶卷曲病相关基因Ty-6的克隆、序列分析及表达特性

进一步从分子水平探究番茄黄叶卷曲病,扩展其抗病基因库。通过克隆番茄黄叶卷曲病相关基因Ty-6,利用生物信息学方法对其编码蛋白一级结构、二级结构及三级结构进行序列分析,构建进化树,最后通过感染黄叶卷曲病毒,检测Ty-6基因在番茄不同时期不同组织中的表达特性。Ty-6基因共编码305个氨基酸,其编码产物属于碱性蛋白,二级结构以无规则卷曲为主,预测蛋白定位于细胞质膜上;且含有51个磷酸化位点与39个糖基化位点;启动子区主要以TATA-box为主,且含多个光响应、茉莉酸、水杨酸以及脱落酸等诱导基因表达的元件;系统发育分析结果表明其与马铃薯的亲缘关系最近;q-PCR显示在感染病毒后叶中该基因的表达量明显高于对照,且具组织表达特异性。Ty-6基因的研究不仅扩展了育种者可用的Ty基因工具包,也提供了一种抗病的可行思路。     

内蒙古白绒山羊erk2基因的克隆及表达模式分析

旨在克隆内蒙古白绒山羊erk2基因cDNA并分析其基本表达模式。采用RT-PCR方法克隆白绒山羊erk2基因cDNA。通过在线软件Blast进行核酸序列分析,用SMART与Psite进行氨基酸序列分析。定量RT-PCR检测erk2基因在绒山羊组织中的表达特异性。免疫组化法检测绒山羊睾丸中erk2表达。克隆到的内蒙古白绒山羊erk2基因cDNA片段 (GenBank Accession No.JX569765) 长1 083 bp,包含了编码360个氨基酸残基的全长ORF,氨基酸序列与牛的ERK2 (Bos Taurus BC133588.1) 同源性为100％。SMART分析表明,ORF编码的蛋白包含了活化位点“TEY”及具有丝氨酸/苏氨酸激酶催化活性的S-TKc结构域。Psite分析表明,含2个N-糖基化位点、1个依赖于cAMP/cGMP的蛋白激酶磷酸化位点、3个蛋白激酶c磷酸化位点、5个酪蛋白激酶Ⅱ磷酸化位点、2个N-豆蔻酰化位点、2个异戊二烯基结合区 (CAAX box)、7个微体羧基端靶向信号、2个蛋白激酶ATP结合区标记及一个丝/苏氨酸蛋白激酶活性区域标记。PSORT (k-NN prediction) 程序预测其定位于细胞质中。定量RT-PCR分析显示erk2基因mRNA丰度在心脏、皮肤以及乳腺组织中mRNA丰度较高,脾、肾中的表达相对较低。在睾丸中检测到ERK2蛋白表达。     

荔波连蕊茶GA20氧化酶基因的克隆及表达分析

根据植物GA20ox基因编码区的保守序列设计引物,以山茶属荔波连蕊茶幼嫩茎段为材料,提取总RNA,进行RT-PCR。采用RACE技术扩增获得1 567 bp的GA20氧化酶基因全长cDNA序列,命名为ClGA20ox2(GenBank登录号KF823787)。序列分析表明,ClGA20ox2开放阅读框(ORF)为1 146 bp,编码382个氨基酸,5'非编码区115 bp,3'非编码区303 bp。预测的蛋白质分子量为43.56 kD,等电点为7.02,所推导的蛋白氨基酸序列与夹竹桃和杨树GA20ox蛋白的同源性分别为73%和72%。ClGA20ox2与其它植物GA20ox蛋白比较,构建系统进化树,结果显示山茶GA20ox蛋白与夹竹桃和杨树的GA20ox蛋白的亲缘关系最为密切。实时定量PCR结果显示,该基因在荔波连蕊茶的根、茎、叶和种子中均有表达,其表达模式却不同:ClGA20ox2基因在二年生茎段中的表达丰度最高,在顶端分生组织中表达丰度最低,在嫩叶和根中表达丰度较高,成熟叶片和种子表达丰度较低。     

克氏光唇鱼线粒体基因组测定及光唇鱼属的系统发育分析

根据侧条光唇鱼(Acrossocheilus parallens)线粒体基因(mt DNA)序列设计引物,采用引物步移和PCR扩增产物测序,获得了克氏光唇鱼(A.kreyenbergii)的mt DNA全序列。结构分析表明,克氏光唇鱼mt DNA为首尾闭合的环状基因,全长16 596 bp,编码37个基因,包括13个蛋白编码基因、22个t RNA基因、2个r RNA基因和两段非编码区(D-loop和轻链复制起点OL),碱基组成具有明显的A+T偏好和反G偏倚现象。13个蛋白编码基因中,除COⅠ的起始密码子是GTG,其余基因的起始密码子均为ATG;终止密码子包括完全的终止密码子TAA(38.46%)和TAG(7.69%),不完全的终止密码子TA(15.38%)和T(38.46%)。在D-loop区的811~837 bp区间发现了一段"TA"短串联重复序列。从蛋白编码基因所包含的信息量、变异位点和变异率看,ND5、ND4、COⅠ和ND2最适合作为光唇鱼属种间系统发育分析的分子标记。采用贝叶斯法利用13个蛋白编码基因所构建的系统发育树显示,光唇鱼属和白甲鱼属(Onychostoma)的24种鱼类各自没有聚为单系群,相互间不能明确区分。     

三叶木通促分裂原活化蛋白激酶基因mapk3的克隆及表达分析

植物MAPK信号途径在植物生长发育以及多种逆境胁迫响应和激素调控过程中发挥着至关重要的作用。本文利用RACE-PCR技术克隆三叶木通促分裂原活化蛋白激酶基因mapk3的全长c DNA序列,并对其进行生物信息学分析和时空表达分析。克隆所得的Aktmapk3基因的ORF全长序列为1 164 bp,编码387个氨基酸,其编码的蛋白具有ATP结合位点,MAPK激酶保守结构和丝氨酸/苏氨酸蛋白激酶激活位点,推测其可能通过被磷酸化而激活以及通过磷酸化下游蛋白而执行生理功能。实时荧光定量PCR结果显示,Aktmapk3基因在三叶木通各组织器官均有表达,在芽成熟叶片以及花中表达量比较高,在茎、幼叶和果肉中的表达量最低,暗示该基因可能参与了三叶木通芽的形成和花的发育。     

大熊猫和亚洲黑熊TNNC1 基因的克隆、表达与序列分析

慢肌肌钙蛋白C (Troponin C type 1,TNNC1)具有高度保守性,调控骨骼肌慢肌和心肌的收缩,影响肌蛋白的生成,从而可能导致动物肌肉的生长、进化和功能的差异。本研究以大熊猫和亚洲黑熊骨骼肌为材料,提取总RNA 和基因组DNA,运用RT-PCR 和Touch-down PCR 分别扩增出TNNC1 基因的cDNA 序列和结构基因序列,并且构建了含有TNNC1 cDNA 的重组表达载体,转化进入E. coli BL21 进行超表达研究。结果表明大熊猫TNNC1 基因的cDNA 片段长602 bp,包含一个编码161 个氨基酸的开放阅读框,其结构基因全长2 831 bp,包含6 个外显子和5 个内含子。亚洲黑熊TNNC1 基因的cDNA 片段长486 bp,亦包含一个编码161 个氨基酸的开放阅读框,其结构基因全长2 758 bp,同样包含6 个外显子和5 个内含子。该两个物种的TNNC1 基因与已报道的13种动物的TNNC1 基因具有很高的相似性。拓扑预测表明,大熊猫和亚洲黑熊TNNC1 蛋白有1 个蛋白激酶C 磷酸化位点,5 个酪蛋白激酶Ⅱ磷酸化位点,1 个N-豆蔻酰化位点,3 个EF 手性钙结合域及1 个N - 糖基化位点。将TNNC1 基因在大肠杆菌中表达发现TNNC1 蛋白与氮端多聚组氨酸标签蛋白(His6) 融合成大小为23. 5kD 左右的多肽,这与预期结果相一致。本研究结果为进一步深入探讨大熊猫和亚洲黑熊TNNC1 基因及蛋白的结构、功能和进化关系提供资料。     

大豆GmDAO1基因的功能预测及表达分析

本研究通过在大豆基因组数据库中检索拟南芥AtDAO1在大豆中的同源基因,获得了GmDAO1基因序列。通过对GmDAO1基因编码的氨基酸序列及启动子序列进行生物信息学分析,我们发现GmDAO1基因CDS序列全长951bp,编码316个氨基酸。GmDAO1编码的蛋白为亲水性蛋白,具有1个N-糖基化位点、3个激酶磷酸化位点与1个豆蔻酰化位点。结构域分析表明GmDAO1含有双加氧酶与2OG-Fe(II)加氧酶结构域,是2-酮戊二酸依赖性双加氧酶基因(2-ODD)家族的成员。GmDAO1预测的启动子区域含有与激素、胁迫、光应答、生物钟调控和转录因子结合相关的顺式作用元件。系统进化分析结果表明DAO1在豆科植物进化过程中比较保守。组织特异性表达分析结果显示GmDAO1在叶片中表达量最低,在根中表达量最高。因此我们推测其可能参与生长素的代谢途径。     

High-intensity-light-dependent and transient expression of new genes encoding distant relatives of light-harvesting chlorophyll-a/b proteins in Chlamydomonas reinhardtii

We identified four Lhc-like genes (Lhl) encoding proteins that are distant relatives of light-harvesting chlorophyll a/b-binding (LHC) proteins in the green alga Chlamydomonas reinhardtii. Their mRNA levels after transfer from low-intensity light to high-intensity light (HL) were examined and compared with those of Lhc genes encoding LHC proteins of PSII. The transfer caused a decrease in the mRNA level of Lhl3, a homolog of Arabidopsis thaliana Lil3, within 2 h, followed by gradual restoration depending on the intensity of HL. The response was similar to that of Lhc genes. In contrast, the mRNA levels of Lhl1, Lhl2 and Lhl4 significantly increased, reached a maximum within 1 h after the transfer and then rapidly returned to a low level. The intensity of HL little influenced the response of these genes. While the Lhl1 and Lhl2 proteins were homologs of early light-inducible protein (ELIP) and high-light-inducible protein (HLIP), respectively, Lhl4 encoded a novel protein. The HL-induced expression of Lhl4 was most prominent among the genes tested. Studies using various inhibitors indicate that the HL response is not mediated by the redox state of plastoquinone pool or reactive oxygen species, but required de novo protein synthesis in the cytosol.     

Light-regulated gene expression during maize leaf development

We have established schedules of expression during maize leaf development in light and darkness for the messenger RNAs (mRNAs) and polypeptides for ribulose 1,5-bisphosphate carboxylase (RuBPCase) subunits, phosphoenolpyruvate carboxylase (PEPCase), and the light- harvesting chlorophyll a/b-binding protein (LHCP). Levels of mRNAs were measured by hybridization with cloned probes, and proteins were measured by immunodetection on protein gel blots. The initial synthesis in leaves of all four mRNAs follows a light-independent schedule; illumination influences only the level to which each mRNA accumulates. The synthesis of RuBPCase small and large subunits and of PEPCase polypeptides also follows a light-independent schedule which is modified quantitatively by light. However, the accumulation of LHCP polypeptides absolutely requires illumination. The accumulation of each protein closely follows the accumulation of its mRNA during growth in light. Higher ratios of PEPCase and RuBPCase protein to mRNA occur during dark growth.     

柑橘叶片中叶黄素循环对PSII反应中心D1蛋白的保护效应

用叶黄素循环抑制剂二硫苏糖醇（DTT）处理7h的柑橘离体叶片,其非光化学猝灭系数NPQ大幅度下降;在中等强度光（500μmol·m^-2·s^-1）和高强度光（1500μmol·m^-2·s^-1）下,DTT处理的叶片光化学效率（Fv/Fm）分别下降3．8％和39．7％,光合电子传递速率（ETR）分别下降12％和49．5％,D1蛋白含量也分别下降87％和92.3％;黑暗对DTT处理叶片的各种荧光参数和D1蛋白的影响不大。显示叶黄素循环在保护光系统（PS）II反应中心、抵御光抑制中有一定的积极效应,可能影响了D1蛋白周转。     

Light-signalling pathways leading to the co-ordinated expression of HEMA1 and Lhcb during chloroplast development in Arabidopsis thaliana

During de-etiolation, the co-ordinated synthesis of chlorophyll and the chlorophyll a/b-binding proteins is critical to the development of functional light-harvesting complexes. To understand how this co-ordination is achieved, we have made a detailed study of the light-regulated signalling pathways mediating the expression of the HEMA1 and Lhcb genes encoding glutamyl-tRNA reductase, the first committed enzyme of 5-aminolaevulinic acid formation, and chlorophyll a/b-binding proteins, respectively. To do this, we have screened 7 photoreceptor and 12 light-signalling mutants of Arabidopsis thaliana L. for induction of HEMA1 and Lhcb expression in continuous red, far-red and blue light and following a red pulse. We have categorised these mutants into two groups. The phyA, phyB, phyAphyB, cry1, cry2, cop1, det1, poc1, eid1, and far1 mutations lead to diverse effects on the light regulation of HEMA1, but affect Lhcb expression to a similar degree. The hy1, hy2, hy5, fin219, fhy1, fhy3, spa1, ndpk2, and pat1 mutants also affect light regulation of both HEMA1 and Lhcb expression, but with differences in the relative magnitude of the two responses. The fhy1 and fhy3 mutants show the most significant differences in light regulation between the two genes, with both showing a strong inhibition of HEMA1 expression under continuous red light. These results demonstrate that co-ordinated regulation of HEMA1 and Lhcb is largely achieved through parallel light regulation mediated by shared phytochrome- and cryptochrome-signalling pathways. However, glutamyl-tRNA reductase is also required for the synthesis of other tetrapyrroles and this dual role may account for the observed differences in these light-signalling pathways.     

Expression of ELIPs and PS II-S protein in spinach during acclimative reduction of the Photosystem II antenna in response to increased light intensities

The PS II-S protein and the so-called early light-inducible proteins (ELIPs) are homologous to the chlorophyll a/b-binding (Cab) gene products functioning in light-harvesting. The functional significance of these two CAB homologues is not known although they have been considered to bind pigments and in the case of the PS II–S protein this has been experimentally supported. The role of these two proteins does not appear to be light-harvesting but instead they are suggested to play a role as quenchers of free chlorophyll molecules during biogenesis and/or degradation of pigment-binding proteins. Such a role would be essential to eliminate the toxic and damaging effects that can be induced by free chlorophyll in the light. To this end the expression and characteristics of the ELIPs and the PS II–S protein were investigated in spinach leaves acclimating from low to high light intensities. Under these conditions there is a reduction in the antenna size of Photosystem II due to proteolytic digestion of its major chlorophyll a/b-binding protein (LHC II). During this acclimative proteolysis, up to one third of LHC II can be degraded and consequently substantial amounts of chlorophyll molecules will lose their binding sites. Our results reveal that there is a close correlation between ELIP accumulation and the onset of the LHC II degradation as low light-grown spinach leaves are subjected to increased light intensities. In contrast, there was no change in the relative level of the PS II–S protein during the acclimation process. It is concluded that the role for the ELIPs may be related to binding of liberated chlorophyll molecules and quenching of the toxic effects during LHC II degradation. In addition it was shown that in spinach four different ELIP species can be expressed and that they show different accumulation patterns in response to increased light intensities.     

Coregulation of light-harvesting complex II phosphorylation and lhcb mRNA accumulation in winter rye

Winter rye plants grown under contrasting environmental conditions or just transiently shifted to varying light and temperature conditions, were studied to elucidate the chloroplast signal involved in regulation of photosynthesis genes in the nucleus. Photosystem II excitation pressure, reflecting the plastoquinone redox state, and the phosphorylation level of thylakoid light-harvesting proteins (LHCII and CP29) were monitored together with changes occurring in the accumulation of lhcb, rbcS and psbA mRNAs. Short-term shifts of plants to changed conditions, from 1 h to 2 d, were postulated to reveal signals crucial for the initiation of the acclimation process. Comparison of these results with those obtained from plants acclimated during several weeks' growth at contrasting temperature and in different light regimes, allow us to make the following conclusions: (1) LHCII protein phosphoylation is a sensitive tool to monitor redox changes in chloroplasts; (2) LHCII protein phosphorylation and lhcb mRNA accumulation occur under similar conditions and are possibly coregulated via an activation state of the same kinase (the LHCII kinase); (3) Maximal accumulation of lhcb mRNA during the diurnal light phase seems to require an active LHCII kinase whereas inactivation of the kinase is accompanied by dampening of the circadian oscillation in the amount of lhcb mRNA; (4) Excitation pressure of photosystem II (reduction state of the plastoquinone pool) is not directly involved in the regulation of lhcb mRNA accumulation. Instead (5) the redox status of the electron acceptors of photosystem I in the stromal compartment seems to be highly regulated and crucial for the regulation of lhcb gene expression in the nucleus.     

Regulation of photosynthesis in developing leaves of soybean chlorophyll-deficient mutants

In this report we examine the factors that regulate photosynthesis during leaf ontogeny in y3y3 and Y11y11, two chlorophyll-deficient mutants of soybean. Photosynthetic rates were similar during wild type and Y11y11 leaf development, but the senescence decline in photosynthesis was accelerated in y3y3. Photosynthetic rates fell more rapidly than chlorophyll concentrations during senescence in wild type leaves, indicating that light harvesting is not strongly limiting for photosynthesis during this phase of leaf development. Chlorophyll concentrations in Y11y11, though significantly lower than normal, were able to support normal photosynthetic rates throughout leaf ontogeny. Chlorophyll a/b ratios were constant during leaf development in the wild type, but in the mutants they progressively increased (y3y3) or decreased (Y11y11). In all three sets of plants, photosynthetic rates were directly proportional to Rubisco contents and activities, suggesting that Rubisco plays a dominant role in regulating photosynthesis throughout leaf ontogeny in these plants. The expression of some photosynthetic proteins, such as Rubisco activase, was coordinately regulated with that of Rubisco in all three genotypes, i.e. an early increase, coincident with leaf expansion, followed by a senescence decline in the fully-expanded leaf. On the other hand, the light harvesting chlorophyll a/b-binding proteins of PS II (the CAB proteins), while they showed a profile similar to that of Rubisco in the wild type and y3y3, progressively increased in amount during Y11y11 leaf development. We conclude that Y11y11 may be defective in the accumulation of a component required for LHC II assembly or function, while y3y3 has more global effects and may be a regulatory factor that controls the duration of senescence.     

玉米C4光合叶不同部位解剖结构和光抑制特性的比较

以玉米第54i全展叶（C4光合叶）为材料,分别测定基部、中部和顶部的光合速率后,将叶片置于强光（2000μmol·m^2·s^-1）下处理3h和暗中恢复3h,再测定这3个部位在处理期间的叶绿素荧光参数变化;然后分别从叶片的基部、中部和顶部取样观察显微结构和超微结构,测定叶绿素含量。结果表明,3个部位光合速率和叶绿素含量的大小依次为：中部〉顶部〉基部。基部的维管束鞘细胞叶绿体数量少,体积小,排列无规律,类囊体膜有部分垛叠;中部和顶部维管束鞘细胞叶绿体数量多,体积大,大部分围绕维管束呈离心排列,类囊体膜垛叠消失。在强光下,基部、中部和顶部均发生光抑制,但光抑制程度不同,根据严重度依次为：基部〉顶部〉中部,3个部位在暗中的光抑制恢复能力依次为：中部〉顶部〉基部。与叶基部相比,叶中部在强光下能维持较高的电子传递效率（φEo）和较低的热耗散比率（φDo）。这表明,C4光合循环是保持较高电子传递效率、减轻光抑制的重要因子。     

白桦BpPIN3基因启动子序列及应答特性分析

PIN蛋白家族作为植物中重要的生长素外排载体家族,在植物生长和发育过程中表现出广泛的生理效应。为了进一步了解BpPIN3的功能,探究其在白桦（Betula platyphylla）发育过程中及其对不同激素信号和非生物胁迫的响应,采用生物信息学方法分析白桦BpPIN3启动子序列。以1年生和2年生白桦无性系苗木的根、茎、叶和顶芽为材料进行组织部位表达模式分析。以白桦幼苗为材料,用100 μmol·L^-1生长素（IAA）、100 μmol·L^-1赤霉素（GA₃）、200 μmol·L^-1脱落酸（ABA）和长光照条件下分别进行激素诱导和光胁迫处理,并取激素处理后0、2、4、8、16、24、48 h以及光胁迫后0、1、3、6,12、24、48、72 h时的白桦叶片和根提取RNA,利用qRT-PCR技术分析BpPIN3基因的表达情况。结果显示：BpPIN3启动子序列包含赤霉素、脱落酸、茉莉酸甲酯等不同类型的生长素响应元件,以及多个与逆境相关的顺式调控元件。BpPIN3在不同生长年份白桦的多个组织部位都有表达,尤其在叶片中表达量较高,并且所有组织部位中BpPIN3第二年的表达量均高于第一年。BpPIN3基因在不同处理条件下,不同部位间的相对表达量的变化存在一定差异,IAA及GA能够诱导白桦叶片组织细胞中的BpPIN3上调表达;而在ABA处理下除16、48 h外,BpPIN3基因表现出与IAA处理下相反的表达模式。在根组织中,IAA、GA₃及ABA均能诱导BpPIN3的表达。在叶片组织中,遮光胁迫诱导了BpPIN3基因的表达;在根组织中,随着处理时间的推移,12 h开始BpPIN3基因的相对表达量均显著高于对照（0 h）。根据试验结果,推测BpPIN3基因在白桦生长发育过程,以及IAA、GA₃和ABA信号转导途径和植物光响应过程中发挥重要调控作用。