1、分别写出20xx年以来，国际上与Ovarian cancer、Breast cancer、Leukemia相关的文献有多少篇？写出3篇研究性论文标题和摘要，写出5篇综述性论文标题和摘要；

数据库：科学引文索引数据库(SCI：Science Citation Index)

http://isiknowledge.com

与Ovarian cancer相关的文献有11,303篇

与Breast cancer相关的文献有56,209篇

与Leukemia相关的文献有32,912篇

综述性论文标题和摘要

1. Hemochromatosis and ovarian cancer

摘要: Evaluation of: Gannon PO, Medelci S, Le Page C et al. Impact of hemochromatosis gene (HFE) mutations on epithelial ovarian cancer risk and prognosis. Int. J. Cancer 128(10), 2326-2334 (2011). The frequency of two mutations (C282Y and D62H) of the hemochromatosis gene were investigated in women with ovarian cancer. A single allele mutation of the C282Y but not the H63D gene product was detected in 8-9% of women with benign ovarian tumors (n = 124) and ovarian cancers (n = 360) compared with 2.5% for controls (n = 80) representing a 4.9-fold increase in risk. With high-grade serous ovarian cancers (n = 179), the survival rate of women with a single allele C282Y mutation was reduced from 39 to 19 months. These results implicate mutations of the hemochromatosis gene in the generation and severity of ovarian cancers, which may have prognostic value.

2. Differences between women who pursued genetic testing for hereditary breast and ovarian cancer and their at-risk relatives who did not.

摘要: Purpose/Objectives: To (a) examine differences in appraisals of hereditary breast and ovarian cancer (HBOC), psychological distress, family environment, and decisional conflict between women who pursued genetic testing and their at-risk relatives who did not, and (b) examine correlations among appraisals of HBOC, psychological distress, family environment, and decisional conflict regarding genetic testing in these two cohorts of women.Design: Descriptive, cross-sectional cohort study.Setting: Two clinics affiliated with a major research university in the midwestern United States.Sample: 372 women aged 18 years and older. 200 pursued genetic testing for BRCA1 and BRCA2 mutations (probands) and 172 of their female relatives who had a greater than 10% prior probability of being a mutation carrier but had not pursued testing.Methods: After providing informed consent, probands and relatives were mailed self-administered questionnaires.Main Research Variables: Perceived risk, knowledge of HBOC risk factors and modes of gene inheritance, perceived severity, perceived controllability, psychological distress, family relationships, family communication, and decisional conflict about genetic testing.Findings: T tests revealed that probands perceived higher risk and had more psychological distress associated with breast cancer. Probands had more knowledge regarding risk factors and gene inheritance, and greater decisional conflict regarding genetic testing. Relatives reported higher perceived severity and controllability. No differences were observed in family relationships and family communication between probands

and relatives. Pearson correlations revealed different patterns in knowledge, perceived controllability, family relationships, and decisional conflict between probands and relatives.Conclusions: Significant differences exist between women who pursue genetic testing and those who do not. The family environment influences adjustment to HBOC and decisions about genetic testing.Implications for Nursing: Enhancing the family communication process about HBOC can provide informational and emotional support to high-risk women and promote decision making about genetic testing.

3. Incidence and mortality in epithelial ovarian cancer by family history of any

cancer

摘要: Practically all data on familial risk in ovarian and other cancers are based on incident cancer, whereas familiality in cancer mortality is largely unknown. If fatal forms of cancer are a highly familial subtype, then familial risk for mortality may exceed that of incidence, which is relevant for clinical decision making and counseling. Ovarian cancer patients in the nationwide Swedish Family Cancer Database were classified according to fatal and nonfatal (incident) family history. Familial risks for incident and fatal ovarian cancer were calculated for offspring based on their parental or sibling family history of any cancer using standardized incidence ratios (SIRs) for incidence and standardized mortality ratios (SMRs) for mortality. Offspring without family history were referents. The database included 24,757 mothers and 8138 daughters with ovarian cancer. When a mother had ovarian cancer, the SIR for incident ovarian cancer in daughters was 2.69, and when a sister had ovarian cancer it was 3.49. The SMRs for fatal cancer by fatal cancer in probands were 3.39 and 5.80, respectively. For fatal serous cancers among siblings, the SMR was 6.16, compared with 10.01 for the endometrioid type. Ovarian cancer was associated with maternal (SIR, 1.22; SMR, 1.56) and sororal breast cancer (SIR, 1.27). Another discordant association was between ovarian and paternal prostate cancer (SIR, 1.12; SMR, 1.66). Fatal familial risks were higher for concordant ovarian, ovarian-breast, and ovarian-prostate cancers than the corresponding incident risks. This may suggest that highly fatal subtypes exist for these cancers, calling for genetic dissection. Cancer 2011. 2011 American Cancer Society. Copyright 2011 American Cancer Society.

4. Knock-down of amphiregulin inhibits cellular invasion in inflammatory breast

cancer.

摘要: We have previously shown that SUM-149 human breast cancer cells require an amphiregulin (AREG) autocrine loop for cell proliferation. We also demonstrated that AREG can increase epidermal growth factor receptor (EGFR) stability and promote EGFR localization to the plasma membrane. In the present studies we successfully knocked-down AREG expression in SUM-149 cells by lentiviral infection of AREG shRNA. In the absence of AREG expression, SUM-149 cell growth was slowed, but not completely inhibited. Furthermore, cells infected with AREG shRNA constructs showed an increase in EGFR protein expression by Western blot. Immunofluorescence and confocal microscopy showed that following AREG knock-down, EGFR continued to localize to the cell surface. Soft agar assays demonstrated that AREG knock-down cells retain anchorage-independent growth capacity. Additionally mammosphere forming assays and Adefluor staining analysis showed that knock-down of AREG expression did not affect the expression of stem cell phenotypes. However, following AREG knock-down, SUM-149 cells demonstrated a dramatic decrease in their ability to invade a Matrigel matrix. Consistent with this observation,

microarray analysis comparing cells infected with a non-silencing vector to the AREG knock-down cells, identified genes associated with the invasive phenotype such as RHOB and DKK1, and networks associated with cell motility such as integrin-linked kinase signaling, and focal adhesion kinase signaling. AREG was also found to modulate WNT and Notch signaling in these cells. Thus, AREG functions in regulating the invasive phenotype, and we propose that this regulation may be through altered signaling that occurs when AREG activates plasma membrane localized EGFR. J. Cell. Physiol. 226: 2691-2701, 2011. 2011 Wiley-Liss, Inc. Copyright 2011 Wiley-Liss, Inc.

5. Prognostic impact of c-KIT mutations in core binding factor acute myeloid

leukemia.

摘要: This study sought to define the prognostic impact of c-KIT mutations in core binding factor acute myeloid leukemia (CBF AML) patients. A total of 116 patients diagnosed as CBF AML in Asan Medical Center from January 1999 to May 2010 were enrolled in this study. We applied melting curve analyses and direct sequencing methods to confirm c-KIT mutations in exon 17 (mutKIT17) and exon 8 (mutKIT8). Of the total 116 patients, mutKIT17 were found in 36 (31%) and mutKIT8 were found in 7 (6%). In patients with t(8;21), prognosis was significantly poorer in those with mutKIT17 compared to those without the mutation. This difference was limited to adults. In patients with inv(16), there was no prognostic impact of c-KIT mutations. Therefore, an analysis of mutKIT17 in adult CBF AML patients with t(8;21) is recommended as a means to predict prognosis. Copyright 2011 Elsevier Ltd. All rights reserved.

研究性论文标题和摘要

1. Prolactin increases survival and migration of ovarian cancer cells: Importance of

prolactin receptor type and therapeutic potential of S179D and G129R receptor antagonists.

摘要: Variably-spliced prolactin receptors (PRLRs) and PRL are expressed by the ovarian cancer cell lines, TOV-112D, OV-90 and TOV-21G. Incubation in the PRLR antagonists, G129R- or S179D-PRL, or anti-PRL reduced cell number, indicating a functional autocrine PRL growth loop. Added PRL promoted, and the antagonists decreased, cell migration. When cells were stressed, added PRL decreased apoptosis and increased survival, and the antagonists had the opposite effect. Cells expressing higher long:short PRLR ratios had increased growth, survival and migration in response to PRL. Results suggest that PRLR antagonists may be therapeutically beneficial in ovarian cancer. Copyright 2011 Elsevier Ireland Ltd. All rights reserved

2. (R)-FTY720 methyl ether is a specific sphingosine kinase 2 inhibitor: Effect on

sphingosine kinase 2 expression in HEK 293 cells and actin rearrangement and survival of MCF-7 breast cancer cells

摘要: Sphingosine kinase 2 (SK2) catalyses the conversion of sphingosine to the bioactive lipid sphingosine 1-phosphate (Si P). We report here, the stereospecific synthesis of an analogue of FTY720 called (R)-FTY720-OMe, which we show is a competitive inhibitor of SK2. (R)-FTY720-OMe failed to inhibit sphingosine kinase 1 activity, thereby demonstrating specificity for SK2. Prolonged treatment of HEK 293 cells with (R)-FTY720-OMe also induced a reduction in SK2 expression. In addition. (R)-FTY720-OMe inhibited DNA synthesis and prevented S1P-stimulated rearrangement of actin in MCF-7 breast cancer cells. These findings demonstrate that SK2 functions as a pro-survival protein and is involved in promoting actin rearrangement into membrane ruffles/lamellipodia in

response to SIP in MCF-7 breast cancer cells. (C) 2011 Elsevier Inc. All rights reserved

3. The BH3-only protein Noxa is stimulated during apoptosis of chronic lymphocytic

leukemia cells triggered by M2YN, a new plant-derived extract.

摘要: Deficiency of apoptosis is a hallmark of chronic lymphocytic leukemia (CLL) cells. M2Yn is a natural extract from plants of central Asia, identified for its antiangiogenic properties and its ability to block the migration of malignant cells. Here, we report that in vitro treatment of cells derived from CLL patients with M2Yn results in internucleosomal DNA fragmentation, phosphatidylserine externalization, mitochondrial membrane depolarization, caspase-3 activation and cleavage of the caspase substrate PARP-1. The extents of these effects depend on the patients and are mostly comparable to those of flavopiridol or hyperforin, two known plant-derived apoptosis inducers of CLL cells. M2Yn does not modulate Mcl-1 expression, while downregulation of this antiapoptotic protein is involved in the action of flavopiridol. By contrast, M2Yn, like hyperforin, upregulates the Noxa protein, possibly by inhibiting proteasomal activity. This BH3-only protein is known to trigger the activation of the pro-apoptotic protein Bak through displacement of the Mcl-1/Bak complex at the mitochondrial membrane, as actually observed here in M2Yn-treated cells. Our data, therefore, show that M2Yn can induce the caspase-dependent mitochondrial pathway of apoptosis in CLL cells via a mechanism resembling that of hyperforin. Our data also confirm that the BH3-only protein Noxa is a relevant target for CLL therapy.

2、请以”P53”、” BRCA1”、 ” BRCA2”、” RAD51D”、” MSH6”、”MLH1”为关键词，在NCBI的网站上搜索人的序列，要求列出下列信息：物种的拉丁文、序列的ACCNUM和碱基序列，并找出这些基因在酵母、果蝇和小鼠中的同源基因，列出物种的拉丁文，序列的ACCNUM；

（Saccharomyces cerevisiae，Drosophila melanogaster，Mus Musculus）

P53：

Homo sapiens

NC_000017.10

Chromosome: 17; NC_000017.10 (7571720..7590863, complement)

与Saccharomyces cerevisiae同源基因为BK006938.2

与Drosophila melanogaster同源基因为BT021431.1

与Mus Musculus同源基因为AK156276.1

BRCA1：

Homo sapiens

NC_000017.10

Chromosome: 17; NC_000017.10 (41196312..41277500, complement)

与Saccharomyces cerevisiae同源基因为BK006949.2

与Drosophila melanogaster同源基因为AE014134.5

与Mus Musculus同源基因为AL590996.12

BRCA2：

Homo sapiens

NC_000013.10

Chromosome: 13; NC_000013.10 (32889617..32973809)

与Saccharomyces cerevisiae同源基因为BK006939

与Drosophila melanogaster同源基因为AE014134

与Mus Musculus同源基因为AC154885

RAD51D：

Homo sapiens

NC_000017.10

Chromosome: 17; NC_000017.10 (33426811..33446888, complement)

与Saccharomyces cerevisiae同源基因为S66120

与Drosophila melanogaster同源基因为AE014298

与Mus Musculus同源基因为AK011387

MSH6：

Homo sapiens

NC_000002.11

Chromosome: 2; NC_000002.11 (48010221..48034092)

与Saccharomyces cerevisiae同源基因为BK006942

与Drosophila melanogaster同源基因为BT050543

与Mus Musculus同源基因为AC087233

MLH1：

Homo sapiens

NC_000003.11

Chromosome: 3; NC_000003.11 (37034841..37092337)

与Saccharomyces cerevisiae同源基因为BK006940

与Drosophila melanogaster同源基因为AE013599

与Mus Musculus同源基因为AK171052

3、请分别用核酸-核酸、核酸-蛋白质的blast方法，分析以下这个序列可能是一个什么样的序列，要求列出：blast程序、比对的数据库、相似性最高的序列的ACCNUM、相似性最高序列所在的物种和相似

性最高的序列的功能描述；

核酸-核酸

blast程序: BLASTN 2.2.25

比对的数据库: nr/nt

相似性最高的序列的ACCNUM: U01876.1 GI:3478631 相似性最高序列所在的物种: Deinococcus radiodurans R1

相似性最高的序列的功能描述:RecA is a bacterial enzyme which has roles inhomologous recombination, DNA repair, and the induction of the SOS response. RecA couples ATP hydrolysis to DNA strand exchange;

核酸-蛋白质

blast程序: BLASTX 2.2.25

比对的数据库: nr 相似性最高的序列的ACCNUM: NP_296061.1 GI:15807331

相似性最高序列所在的物种: Deinococcus radiodurans R1

相似性最高的序列的功能描述: RecA is a bacterial enzyme which has roles inhomologous recombination, DNA repair, and the induction of the SOS response. RecA couples ATP hydrolysis to DNA strand exchange;

4、请分别在人类基因组数据库中找出以下基因”P53”、” BRCA1”、 ” BRCA2”、” RAD51D”、” MSH6”、”MLH1”的cDNA的序列，要求列出：外显子序列的起始边界，外显子基本的功能描述； P53

外显子序列的起始边界(1,10927,11143,11274,12310,12575,13256,13709,13938,16831,17856) 外显子基本的功能描述tumor protein p53, transcript variant 2

BRCA1

外显子序列的起始边界

(1,1369,9705,18951,20528,21223,25604,28195,29562,30624,34452,42909,48870,50963,54246,57789,61533,62111,68349,74367,76290,77781,79682)

外显子基本的功能描述breast cancer 1, early onset, transcript variant1

BRCA2

外显子序列的起始边界

(1,943,3598,9597,10622,10763,11020,13964,15440,16793,20786,29079,31348,39382,40949,42263,47044,47700,54923,55477,61191, 63838,64271,64528,79210, 81419,82683)

外显子基本的功能描述breast cancer 2, early onset

RAD51D

外显子序列的起始边界(1,698,13389,16326, 16546,18505,18834)

外显子基本的功能描述RAD51 homolog D (S. cerevisiae), transcript variant 4

MSH6

外显子序列的起始边界(1,7846,12813,15530,20339,21829,22537,23123,23371,23698) 外显子基本的功能描述mutS homolog 6 (E. coli)

MLH1

外显子序列的起始边界

(1,3270,7606,11052,13642,15465,18471,18662,21083,24157,26961,32288,35435,46837,48919,54170, 55168,55555,57137)

外显子基本的功能描述mutL homolog 1, colon cancer, nonpolyposis type 2 (E. coli), transcript variant 1

5、请分别获取以下人类基因”P53”、” BRCA1”、 ” BRCA2”、” RAD51D”、” MSH6”、”MLH1”的蛋白质序列，要求列出：氨基酸序列、蛋白质的序列号。

人类的P53蛋白质序列

1 meepqsdpsv epplsqetfs dlwkllpenn vlsplpsqam ddlmlspddi eqwftedpgp

61 deaprmpeaa prvapapaap tpaapapaps wplsssvpsq ktyqgsygfr lgflhsgtak

121 svtctyspal nkmfcqlakt cpvqlwvdst pppgtrvram aiykqsqhmt evvrrcphhe

181 rcsdsdglap pqhlirvegn lrveylddrn tfrhsvvvpy eppevgsdct tihynymcns

241 scmggmnrrp iltiitleds sgnllgrnsf evhvcacpgr drrteeenlr kkgephhelp

301 pgstkralsn ntssspqpkk kpldgeyftl qirgrerfem frelnealel kdaqagkepg

361 gsrahsshlk skkgqstsrh kklmfktegp DSD

// 蛋白质的序列号BAC16799

人类的BRCAI的蛋白质序列

ORIGIN

1 mdlsalrvee vqnvinamqk ilecpiclel ikepvstkcd hifckfcmlk llnqkkgpsq

61 cplcknditk rslqestrfs qlveellkii cafqldtgle yansynfakk ennspehlkd

121 evsiiqsmgy rnrakrllqs epenpslqet slsvqlsnlg tvrtlrtkqr iqpqktsvyi

181 elgsdssedt vnkatycsvg dqellqitpq gtrdeislds akkaacefse tdvtntehhq

241 psnndlntte kraaerhpek yqgssvsnlh vepcgtntha sslqhenssl lltkdrmnve

301 kaefcnkskq pglarsqhnr wagsketcnd rrtpstekkv dlnadplcer kewnkqklpc

361 senprdtedv pwitlnssiq kvnewfsrsd ellgsddshd gesesnakva dvldvlnevd

421 eysgssekid llasdpheal ickservhsk svesniedki fgktyrkkas lpnlshvten

481 liigafvtep qiiqerpltn klkrkrrpts glhpedfikk adlavqktpe minqgtnqte

541 qngqvmnitn sghenktkgd siqneknpnp ieslekesaf ktkaepisss isnmelelni

601 hnskapkknr lrrksstrhi halelvvsrn lsppnctelq idscssseei kkkkynqmpv

661 rhsrnlqlme gkepatgakk snkpneqtsk rhdsdtfpel kltnapgsft kcsntselke

721 fvnpslpree keekletvkv snnaedpkdl mlsgervlqt ersvesssis lvpgtdygtq

781 esisllevst lgkaktepnk cvsqcaafen pkglihgcsk dnrndtegfk yplghevnhs

841 retsiemees eldaqylqnt fkvskrqsfa pfsnpgnaee ecatfsahsg slkkqspkvt

901 feceqkeenq gknesnikpv qtvnitagfp vvgqkdkpvd nakcsikggs rfclssqfrg 961 netglitpnk hgllqnpyri pplfpiksfv ktkckknlle enfeehsmsp eremgnenip 1021 stvstisrnn irenvfkeas ssninevgss tnevgssine igssdeniqa elgrnrgpkl

1081 namlrlgvlq pevykqslpg snckhpeikk qeyeevvqtv ntdfspylis dnleqpmgss 1141 hasqvcsetp ddllddgeik edtsfaendi kessavfsks vqkgelsrsp spfththlaq 1201 gyrrgakkle sseenlssed eelpcfqhll fgkvnnipsq strhstvate clsknteenl 1261 lslknslndc snqvilakas qehhlseetk csaslfssqc seledltant ntqdpfligs

1321 skqmrhqses qgvglsdkel vsddeergtg leennqeeqs mdsnlgeaas gcesetsvse 1381 dcsglssqsd ilttqqrdtm qhnliklqqe maeleavleq hgsqpsnsyp siisdssale 1441 dlrnpeqsts ekavltsqks seypisqnpe glsadkfevs adsstsknke pgversspsk 1501 cpslddrwym hscsgslqnr nypsqeelik vvdveeqqle esgphdltet sylprqdleg 1561 tpylesgisl fsddpesdps edrapesarv gnipsstsal kvpqlkvaes aqspaaahtt 1621 dtagynamee svsrekpelt astervnkrm smvvsgltpe efmlvykfar khhitltnli 1681 teetthvvmk tdaefvcert lkyflgiagg kwvvsyfwvt qsikerkmln ehdfevrgdv 1741 vngrnhqgpk raresqdrki frgleiccyg pftnmptdql ewmvqlcgas vvkelssftl 1801 gtgvhpivvv qpdawtedng fhaigqmcea pvvtrewvld svalyqcqel dtylipqiph 1861 shy

// 蛋白质的序列号 AAF97939

人类的BRCA2的蛋白质序列

ORIGIN

1 mpigskerpt ffeifktrcn kadlgpisln wfeelsseap pynsepaees ehknnnyepn 61 lfktpqrkps ynqlastpii fkeqgltlpl yqspvkeldk fkldlgrnvp nsrhkslrtv 121 ktkmdqaddv scpllnscls espvvlqcth vtpqrdksvv cgslfhtpkf vkgrqtpkhi 181 seslgaevdp dmswssslat pptlsstvli vrneeasetv fphdttanvk syfsnhdesl 241 kkndrfiasv tdsentnqre aashgfgkts gnsfkvnsck dhigksmpnv ledevyetvv 301 dtseedsfsl cfskcrtknl qkvrtsktrk kifheanade ceksknqvke kysfvsevep 361 ndtdpldsnv ahqkpfesgs dkiskevvps lacewsqltl sglngaqmek ipllhisscd 421 qnisekdlld tenkrkkdfl tsenslpris slpksekpln eetvvnkrde eqhleshtdc 481 ilavkqaisg tspvassfqg ikksifrire spketfnasf sghmtdpnfk keteasesgl 541 eihtvcsqke dslcpnlidn gswpatttqn svalknagli stlkkktnkf iyaihdetfy 601 kgkkipkdqk selincsaqf eanafeaplt fanadsgllh ssvkrscsqn dseeptlslt 661 ssfgtilrkc srnetcsnnt visqdldyke akcnkeklql fitpeadsls clqegqcend 721 pkskkvsdik eevlaaachp vqhskveysd tdfqsqksll ydhenastli ltptskdvls

781 nlvmisrgke sykmsdklkg nnyesdvelt knipmeknqd vcalnenykn vellppekym 841 rvaspsrkvq fnqntnlrvi qknqeettsi skitvnpdse elfsdnennf vfqvanernn 901 lalgntkelh etdltcvnep ifknstmvly gdtgdkqatq vsikkdlvyv laeenknsvk 961 qhikmtlgqd lksdislnid kipeknndym nkwagllgpi snhsfggsfr tasnkeikls 1021 ehnikkskmf fkdieeqypt slacveivnt laldnqkkls kpqsintvsa hlqssvvvsd 1081 cknshitpqm lfskqdfnsn hnltpsqkae itelstilee sgsqfeftqf rkpsyilqks 1141 tfevpenqmt ilkttseecr dadlhvimna psigqvdssk qfegtveikr kfagllkndc 1201 nksasgyltd enevgfrgfy sahgtklnvs tealqkavkl fsdienisee tsaevhpisl 1261 ssskchdsvv smfkienhnd ktvseknnkc qlilqnniem ttgtfveeit enykrntene 1321 dnkytaasrn shnlefdgsd sskndtvcih kdetdllftd qhniclklsg qfmkegntqi 1381 kedlsdltfl evakaqeach gntsnkeqlt atkteqnikd fetsdtffqt asgknisvak

1441 esfnkivnff dqkpeelhnf slnselhsdi rknkmdilsy eetdivkhki lkesvpvgtg 1501 nqlvtfqgqp erdekikept llgfhtasgk kvkiakesld kvknlfdeke qgtseitsfs 1561 hqwaktlkyr eackdlelac etieitaapk ckemqnslnn dknlvsietv vppkllsdnl 1621 crqtenlkts ksiflkvkvh enveketaks patcytnqsp ysviensala fytscsrkts 1681 vsqtslleak kwlregifdg qperintady vgnylyenns nstiaendkn hlsekqdtyl 1741 snssmsnsys yhsdevynds gylsknklds giepvlknve dqkntsfskv isnvkdanay 1801 pqtvnedicv eelvtssspc knknaaikls isnsnnfevg ppafriasgk ivcvshetik 1861 kvkdiftdsf skvikennen kskicqtkim agcyealdds edilhnsldn decsthshkv 1921 fadiqseeil qhnqnmsgle kvskispcdv sletsdickc sigklhksvs santcgifst 1981 asgksvqvsd aslqnarqvf seiedstkqv fskvlfksne hsdqltreen tairtpehli 2041 sqkgfsynvv nssafsgfst asgkqvsile sslhkvkgvl eefdlirteh slhysptsrq 2101 nvskilprvd krnpehcvns emektcskef klsnnlnveg gssennhsik vspylsqfqq 2161 dkqqlvlgtk vslvenihvl gkeqaspknv kmeigktetf sdvpvktnie vcstyskdse 2221 nyfeteavei akafmeddel tdsklpshat hslftcpene emvlsnsrig krrgeplilv 2281 gepsikrnll nefdriienq ekslkaskst pdgtikdrrl fmhhvslepi tcvpfrttke 2341 rqeiqnpnft apgqeflsks hlyehltlek sssnlavsgh pfyqvsatrn ekmrhlittg 2401 rptkvfvppf ktkshfhrve qcvrninlee nrqkqnidgh gsddsknkin dneihqfnkn 2461 nsnqaaavtf tkceeepldl itslqnardi qdmrikkkqr qrvfpqpgsl ylaktstlpr 2521 islkaavggq vpsacshkql ytygvskhci kinsknaesf qfhtedyfgk eslwtgkgiq 2581 ladggwlips ndgkagkeef yralcdtpgv dpklisriwv ynhyrwiiwk laamecafpk 2641 efanrclspe rvllqlkyry dteidrsrrs aikkimerdd taaktlvlcv sdiislsani 2701 setssnktss adtqkvaiie ltdgwyavka qldppllavl kngrltvgqk iilhgaelvg 2761 spdactplea peslmlkisa nstrparwyt klgffpdprp fplplsslfs dggnvgcvdv 2821 iiqraypiqw mektssglyi frnereeeke aakyveaqqk rlealftkiq eefeeheent 2881 tkpylpsral trqqvralqd gaelyeavkn aadpaylegy fseeqlraln nhrqmlndkk 2941 qaqiqleirk amesaeqkeq glsrdvttvw klrivsyskk ekdsvilsiw rpssdlysll 3001 tegkryriyh latsksksks eraniqlaat kktqyqqlpv sdeilfqiyq preplhfskf 3061 ldpdfqpscs evdligfvvs vvkktglapf vylsdecynl laikfwidln ediikphmli 3121 aasnlqwrpe sksglltlfa gdfsvfsasp keghfqetfn kmkntvenid ilcneaenkl 3181 mhilhandpk wstptkdcts gpytaqiipg tgnkllmssp nceiyyqspl slcmakrksv 3241 stpvsaqmts ksckgekeid dqknckkrra ldflsrlplp ppvspictfv spaaqkafqp 3301 prscgtkyet pikkkelnsp qmtpfkkfne isllesnsia deelalintq allsgstgek 3361 qfisvsestr taptssedyl rlkrrcttsl ikeqessqas teeceknkqd tittkkyi // 蛋白质的序列号AAB07223

人类的RAD51D的蛋白质序列

ORIGIN

1 mgvlrvglcp glteemiqll rshriktvvd lvsadleeva qkcglsykxl dklldaglyt 61 gevteivggp gsgktqvclc maanvahglq qnvlyvdsng gltasrllql lqaktqdeee 121 qaealrriqv vhafdifqml dvlqelrgtv aqqvtgssgt vkvvvvdsvt avvspllggq 181 qreglalmmq larelktlar dlgmavvvtn hitrdrdsgr lkpalgrsws fvpstrilld 241 tiegagasgg rrmaclakss rqptgfqemv digtwgtseq satlqgdqt

// 蛋白质的序列号AAC39719

人类的MSH6蛋白质序列

ORIGIN

1 msrqstlysf fpkspalsda nkasarasre ggraaaapga spspggdaaw seagpgprpl 61 arsasppkak nlngglrrsv apaaptscdf spgdlvwakm egypwwpclv ynhpfdgtfi 121 rekgksvrvh vqffddsptr gwvskrllkp ytgskskeaq kgghfysakp eilramqrad 181 ealnkdkikr lelavcdeps epeeeeemev gttyvtdkse edneieseee vqpktqgsrr 241 ssrqikkrrv isdsesdigg sdvefkpdtk eegssdeiss gvgdsesegl nspvkvarkr 301 krmvtgngsl krkssrketp satkqatsis setkntlraf sapqnsesqa hvsgggddss 361 rptvwyhetl ewlkeekrrd ehrrrpdhpd fdastlyvpe dflnsctpgm rkwwqiksqn 421 fdlvicykvg kfyelyhmda ligvselglv fmkgnwahsg fpeiafgrys dslvqkgykv 481 arveqtetpe mmearcrkma hiskydrvvr reicriitkg tqtysvlegd psenyskyll 541 slkekeedss ghtraygvcf vdtslgkffi gqfsddrhcs rfrtlvahyp pvqvlfekgn 601 lsketktilk sslscslqeg lipgsqfwda sktlrtllee eyfreklsdg igvmlpqvlk 661 gmtsesdsig ltpgeksela lsalggcvfy lkkclidqel lsmanfeeyi pldsdtvstt 721 rsgaiftkay qrmvldavtl nnleiflngt ngstegtlle rvdtchtpfg krllkqwlca 781 plcnhyaind rldaiedlmv vpdkisevve llkklpdler llskihnvgs plksqnhpds 841 raimyeetty skkkiidfls alegfkvmck iigimeevad gfkskilkqv islqtknpeg 901 rfpdltveln rwdtafdhek arktglitpk agfdsdydqa ladireneqs lleylekqrn 961 rigcrtivyw gigrnryqle ipenfttrnl peeyelkstk kgckrywtkt iekklanlin 1021 aeerrdvslk dcmrrlfynf dknykdwqsa veciavldvl lclanysrgg dgpmcrpvil 1081 lpedtppfle lkgsrhpcit ktffgddfip ndiligceee eqengkaycv lvtgpnmggk 1141 stlmrqagll avmaqmgcyv paevcrltpi drvftrlgas drimsgestf fvelsetasi 1201 lmhatahslv lvdelgrgta tfdgtaiana vvkelaetik crtlfsthyh slvedysqnv 1261 avrlghmacm venecedpsq etitflykfi kgacpksygf naarlanlpe eviqkghrka 1321 refekmnqsl rlfrevclas erstvdaeav hklltlikel

// 蛋白质的序列号NP_000170

人类的MLH1的蛋白质序列

ORIGIN

1 msfvagvirr ldetvvnria ageviqrpan aikemiencl dakstsiqvi vkegglkliq 61 iqdngtgirk edldivcerf ttsklqsfed lasistygfr gealasishv ahvtittkta

121 dgkcayrasy sdgklkappk pcagnqgtqi tvedlfynia trrkalknps eeygkilevv 181 grysvhnagi sfsvkkqget vadvrtlpna stvdnirsif gnavsrelie igcedktlaf 241 kmngyisnan ysvkkcifll finhrlvest slrkaietvy aaylpknthp flylsleisp 301 qnvdvnvhpt khevhflhee silervqqhi eskllgsnss rmyftqtllp glagpsgemv 361 ksttsltsss tsgssdkvya hqmvrtdsre qkldaflqpl skplssqpqa ivtedktdis 421 sgrarqqdee mlelpapaev aaknqslegd ttkgtsemse krgptssnpr krhredsdve 481 mveddsrkem taactprrri inltsvlslq eeineqghev lremlhnhsf vgcvnpqwal 541 aqhqtklyll nttklseelf yqiliydfan fgvlrlsepa plfdlamlal dspesgwtee 601 dgpkeglaey iveflkkkae mladyfslei deegnliglp llidnyvppl eglpifilrl 661 atevnwdeek ecfeslskec amfysirkqy iseestlsgq qsevpgsipn swkwtvehiv 721 ykalrshilp pkhftedgni lqlanlpdly kvferc

// 蛋白质的序列号ACR33810

6、请分别用蛋白质-蛋白质的blast方法，分析以下这个序列可能是一个什么样的序列，要求列出：blast程序、比对的数据库、相似性最高的序列的ACCNUM、相似性最高序列所在的物种和相似性最高的序列的功能描述；

blast程序: BLASTP 2.2.25

比对的数据库: nr

相似性最高的序列的ACCNUM: NP_418806.1 GI:16132206 相似性最高序列所在的物种: Escherichia coli str. K-12 substr. MG1655

相似性最高的序列的功能描述:Sms (bacterial radA) DNA repair protein. This

protein is not related to archael radA any more than is toother RecA-like NTPases. Sms has a role in recombinationand recombinational repair and is responsible for the stabilization or processing of...; cd01121"