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[27]YAN F,CHEN L P,YING M Z,et al. Efficacy and safety [33]QI H,CAO M,CHEN Y,et al. KNTC1 functions as a po⁃
of pembrolizumab combined with albumin⁃bound paclitaxel tential biomarker and oncogene regulating proliferation,
and nedaplatin for advanced esophageal squamous cell migration and apoptosis in gastric cancer[J]. International
carcinoma[J]. Immunotherapy,2024,16(5):305-317 Immunopharmacology,2024,143:113257
[28]MENG X Y,SUN X Q,LIU Z L,et al. A novel era of can⁃ [34] WANG C M,WANG Y Y,LIU C R,et al. Kinetochore⁃
cer/testis antigen in cancer immunotherapy[J]. Int Immu⁃ associated protein 1 promotes the invasion and tumorige⁃
nopharmacol,2021,98:107889 nicityofcervicalcancercellsviamatrixmetalloproteinase⁃2
[29]SALMANINEJAD A,ZAMANI M R,POURVAHEDI M, and matrix metalloproteinase⁃9[J]. Bioengineered,2022,
et al. Cancer/testis antigens:expression,regulation,tumor 13(4):9495-9507
invasion,and use in immunotherapy of cancers[J]. Immu⁃ [35] LIU R J,LIU R L,GUO Z Y,et al. shRNA ⁃ mediated
nol Invest,2016,45(7):619-640 knockdown of KNTC1 inhibits non⁃small⁃cell lung cancer
[30]LIU L,CHEN H W,CHEN X N,et al. KNTC1 as a puta⁃ through regulating PSMB8[J]. Cell Death Dis,2022,13
tive tumor oncogene in pancreatic cancer[J]. J Cancer (8):685
Res Clin Oncol,2023,149(7):3023-3031 [36] TONG H,LIU X H,PENG C H,et al. Silencing of
[31] WANG J P,CARVAJAL⁃CARMONA L G,CHU J H,et KNTC1 inhibits hepatocellular carcinoma cells progres⁃
al.Germline variants and advanced colorectal adenomas: sion via suppressing PI3K/Akt pathway[J]. Cell Signal,
adenoma prevention with celecoxib trial genome⁃wide as⁃ 2023,101:110498
sociation study[J]. Clin Cancer Res,2013,19(23): [37] LIU C T,MIN L,WANG Y J,et al. shRNA ⁃ mediated
6430-6437 knockdown of KNTC1 suppresses cell viability and induces
[32] WU C,MIAO X P,HUANG L M,et al. Genome⁃wide as⁃ apoptosis in esophageal squamous cell carcinoma[J]. Int
sociation study identifies five loci associated with suscep⁃ J Oncol,2019,54(3):1053-1060
tibility to pancreatic cancer in Chinese populations[J]. [收稿日期] 2024-04-18
Nat Genet,2011,44(1):62-66 (本文编辑:蒋 莉)
(上接第1628页) [24] YANG W,MA Y,JIN J,et al. Cyclophosphamide expo⁃
cations,2023,14(1):726 sure causes long⁃term detrimental effect of oocytes devel⁃
[20] UYSAL F,AKKOYUNLU G,OZTURK S. Dynamic ex⁃ opmental competence through affecting the epigenetic
pression of DNA methyltransferases(DNMTs)in oocytes modification and maternal factors’transcription during
and early embryos[J]. Biochimie,2015,116:103-113 oocyte growth[J]. Front Cell Dev Biol,2021,9:682060
[21] CHEN Z,ZHANG Y. Role of mammalian DNA methyl⁃ [25]DING C,LU J,LI J,et al. RNA⁃methyltransferase Nsun5
transferases in development[J]. Annu Rev Biochem, controls the maternal⁃to⁃zygotic transition by regulating
2020,89:135-158 maternal mRNA stability[J]. Clin Transl Med,2022,12
[22] DI EMIDIO G,D’AURORA M,PLACIDI M,et al. (12):e1137
Pre⁃conceptional maternal exposure to cyclophosphamide [26]WILKINSON A L,ZORZAN I,RUGG⁃GUNN P J. Epigen⁃
results in modifications of DNA methylation in F1 and F2 etic regulation of early human embryo development[J].
mouse oocytes:evidence for transgenerational effects[J]. Cell Stem Cell,2023,30(12):1569-1584
Epigenetics,2019,14(11):1057-1064 [27] LI L,GUO F,GAO Y,et al. Single⁃cell multi⁃omics
[23] ECKERSLEY ⁃ MASLIN M A,ALDA ⁃ CATALINAS C, sequencing of human early embryos[J]. Nat Cell Biol,
REIK W. Dynamics of the epigenetic landscape during 2018,20(7):847-858
the maternal⁃to⁃zygotic transition[J]. Nat Rev Mol Cell [收稿日期] 2024-05-23
Biol,2018,19(7):436-450 (本文编辑:戴王娟)

